Why America will go Metric, but it might not matter

As an American and a person with an OCD streak, my country’s use of the Imperial system of weights and measures has long bothered me. The Metric system is simply superior, and it pains and embarrasses me to think about how much my country’s stubbornness hurts global commerce and confuses millions of people the world over each day.

How many car accidents happen because drivers visiting another country confuse kilometers per hour with miles per hour, or vice versa? How much U.S. – foreign trade is made impossible by manufacturers on either side of the border making their products to simple, whole-number measurements (like 12 ounce cans of soda) under their national systems?

The human factor is behind all of this. Like anyone else, Americans find it hard to shake old habits, and the use of the Imperial system is one of them. Humans have an instinctive aversion to change, even if they know in the abstract that a change will benefit them. Moreover, our limited brainpower imposes real hardship to learning new standards of weights and measures. Most American adults who are only used to the Imperial system would, even if forced to use Metric, never fully adapt, and would continue thinking in pounds, miles, and degrees Fahrenheit until the day they died, and would use imperfect heuristics in the interim to guess what the right Metric value was. This phenomenon–in which an old standard becomes fixed in place because the up-front costs of changing it are perceived to be too high even though something superior is known to exist–is called “path dependence.”

But what happens when human stubbornness and human cognitive limitations stop being factors? What happens when technology provides workarounds, or renders different national standards moot, or lowers the costs of changing them to affordable levels? For example, once autonomous cars are ubiquitous and humans don’t drive anymore, what would be the harm in changing all the road signs in America to indicate distances in kilometers and speed limits in kilometers per hour (kph)? Since humans aren’t driving anymore, there’s no longer any potential for Americans to get confused by the units of measurement written on road signs.

And even if the road signs weren’t changed and continued making reference to miles and miles per hour, what would it matter? Human passengers wouldn’t need to look at the signs anyhow, and probably wouldn’t even want to glance at them since it would distract them from watching videos or playing video games on their personal devices.

The consequences of using the Imperial system for weight and volume measurements will also diminish with time. Aside from weighing their own bodies on scales, Americans only think about weight and volume when buying gasoline and groceries. As electric cars become the standard, and as machines do more shopping and at-home food preparation for people, Americans will lose any instinctive grasp of how big a gallon, pound or ounce is, and the machine-run economy will be able to quietly transition to the Metric system without confusing anyone since everyone will be too busy playing VR games or doing recreational drugs to ever think about it.

The American use of the Fahrenheit scale is already not very consequential since people mostly only think about temperature when looking at weather forecasts. People commonly view those forecasts on their smartphones, making it possible for individuals to remain ensconced in their own Fahrenheit or Celsius information bubbles wherever they go, without anyone around them being the wiser. People also have to think about temperature when baking meals, but as I pointed out, machines will take over those tasks in the future, freeing humans from having to think about it. The U.S. could officially switch to the Celsius scale now if it wanted to, with minimal disruption or benefit.

The color-coded graphic shows the frequency of key strikes on a QWERTY keyboard and DVORAK keyboard. The DVORAK’s layout clusters the most-used letters right where the user’s fingers rest.

Relatedly, the QWERTY keyboard is an example of a suboptimal technology whose use is locked-in. Alternative keyboards, notably the DVORAK, are better since they place the most commonly-used keys directly under where the typist’s fingers rest, reducing the finger and wrist movements needed to type words. As a result, a person trained to use a DVORAK keyboard can type faster than one trained to use a QWERTY keyboard. Letter frequency distributions across languages that use the Latin alphabet like English, French, and even Turkish, are surprisingly similar to each other, meaning DVORAK or some close derivative of it would be the optimal keyboard for them all.

Across all languages making use of the Latin alphabet, the letters e, a, i, n, o, r, s, and t comprise at least half of all written text. A keyboard layout that clustered eight keys corresponding to those eight letters centrally would be optimal for all of those users.

So why doesn’t the Western world switch to DVORAK keyboards? Blame the human factor again. As the small number of people who have switched from QWERTY to DVORAK can attest, it takes a lot of time and effort to re-train the muscle memory in your fingers to adapt to a new layout. Humans are bad at learning new things and forcing themselves to forget old habits. Not so for robots, who will be able to adapt to any new keyboard layout instantly. In fact, they probably wouldn’t use keyboards at all and would instead directly interface their minds with other machines to wirelessly input commands, as would humans who had computer implants in their brains. In short, even a locked-in device like the QWERTY keyboard will eventually give way to something better because users will get capable enough to switch to new keyboards, or will evolve beyond the need for any type of keyboards. (And in the nearer term, greater use of continuous speech recognition (CSR) and improvements to autocomplete algorithms will also minimize the importance of typing skills.)

Returning to the example of autonomous cars, it’s clear that they would mollify the effects of another inconsistent standard–the side of the road cars have to drive on. Differences between countries stymie trade, as it’s very hard for truck drivers accustomed to driving on one side of the road to mentally switch to doing the opposite once they cross a border, and because cars themselves must have their layouts configured for right- or left-handed driving, adding to costs.

In red countries, people drive on the right side of the road, and in blue countries, they drive on the left.

However, autonomous vehicles could, at the flick of a switch, adapt from one driving orientation to another with no problem at all. And since they wouldn’t be designed to accept human commands, the cars wouldn’t have steering wheels, pedals, or a special position for a human driver (there would only be two passenger seats in the front row), meaning an autonomous car meant for sale in, say, Britain, would have the same internal layout as a car meant for sale in France.

Thanks to technology, transnational differences in what sides of the road cars must drive on could persist indefinitely, without imposing any costs or inconvenience. Of course, other inconsistent standards would defy technological workarounds. One that springs to mind is differences in railroad track gauges, which is how far apart the two rails are. Rail cars and locomotives must have their wheels spaced properly to engage with the tracks, so rolling stock configured for one gauge can’t operate on railroad networks using a different gauge. This hurts trade between countries like Russia and China since export cargo has to be unloaded at their border from trains using one country’s gauge to trains using the other gauge.

This map shows how wide the railroads are in different countries.

The only solution to this problem is to physically widen or narrow existing railroads until they are a different gauge, and to make corresponding modifications to the wheels of train cars and locomotives. It can be done, but it’s expensive work, partly because of the disruptions in rail service that happen while everything is being changed. For that reason, very few countries now find it worthwhile to change their railroad gauges.

However, free machine labor will change that calculus in the distant future. Robots will inevitably do every type of work cheaper and better than humans, and will eventually number in the hundreds of millions or even billions. Such an enormous labor force, willing to work for free and without complaint, would make hitherto uneconomical projects possible (I discussed this in my I, Robot review and how it would lead to the construction of a lot of new infrastructure). For example, fifty years from now, if Spain voted to switch to the “Standard Gauge” used by the rest of Europe, the project might last a month and simply entail every household agreeing to loan their robot butlers to the government for a few hours each day to work in teams narrowing nearby segments of railroad or narrowing the wheel distances of train cars. If this sounds silly, realize that something like this was done in the American south in 1886: over just two days, thousands of men across the region changed the gauge of 11,500 miles of track to match what we being used in the northern states.

In all European countries, the “mains electricity” is 230 V and 50 hz. However, different national standards for electrical plugs make it impossible to use one electrical device in all European countries. In theory, they could all switch to one type of plug to solve the problem.

The lack of a global standard for electrical plugs and outlets is also a drag on commerce, particularly in Europe where there are six different national standards. Not only is it annoying for travelers who find their electronic device plugs don’t fit into wall sockets, it is costly for manufacturers of said devices since they need to made different versions for different countries, or include plug adapters with their products.

Fortunately, there is a Europe-wide standard for mains electricity, meaning the power coming out of all electrical outlets on the continent is 230 volts at 50 hertz. As such, it would be possible for all of Europe to switch to a single type of electric outlet, though this is again foiled by the high costs of replacing several billion outlets (a simple task, I assure you from experience, but very intimidating for someone who has never done it). Again, ubiquitous robot labor could overcome the problem. Every household’s robot butler would count the number of electrical outlets in his house, tell the government, wait to receive a shipment of new electrical outlets, and then install the new outlets over the course of a day or two.

I don’t have the time to discuss every single productivity- and trade-sapping inefficiency that springs from nonuniform or suboptimal standards, so I’ll leave it to you to imagine how technology could overcome them as well in the future. And also know that intelligent machines and our much smarter posthuman descendants will have it within their power not just to sweep aside the inefficiencies we’ve created, but to upgrade to new, global (and truly universal) standards that are more efficient that anything we have conceived of. Gifted with greater powers of rationality and self-control, the intelligent beings of the future could do things like create new languages and alphabets that convey information more efficiently than any we humans have made so far. Thanks to some properties of electricity, there might be a specific voltage / frequency combination that is optimal for electrical grids, but which we haven’t implemented because it’s something weird like 183.04 V / 49.92 hz.

There might even be something better than the Metric system. One of the glories of that system is that it is entirely base-10, whereas the Imperial system’s units don’t follow any consistent scaling pattern (e.g. – there are 8 ounces in 1 cup, 16 ounces in 1 pint, 32 ounces in 1 quart, and 128 ounces in 1 gallon). But base-10 systems of measurement are only useful because humans are terrible at doing math in their heads, and because we have ten fingers to count on. A being with superhuman intelligence could just as easily use the Imperial system, or a system that hasn’t been invented yet that was not base-10 (I happen to think base-12 systems are superior) and maybe had some of the inconsistent aspects of the Imperial system.

Just take heart, fellow OCD people of the world. Our day is coming!

Links:

  1. In 1886, American workers using only simple tools changed the width of 11,500 miles of railroad track in two days.
    http://southern.railfan.net/ties/1966/66-8/gauge.html
  2. The DVORAK keyboard is better than the QWERTY keyboard.
    https://thekindle3books.com/qwerty-vs-dvorak-the-two-great-keyboards-the-time-were-born/

Interesting articles, August 2021

Afghanistan has fallen to the Taliban. With shocking speed and ease, the central government in Kabul collapsed, and Islamist fighters took the city over, along with all the other significant cities in the countries. America’s nearly 20-year-old nation building project has ended in a stinging defeat. The optics of the U.S. evacuation were also terrible.
https://apnews.com/article/afghanistan-islamic-state-group-e10e038baea732dae879c11234507f81
https://www.youtube.com/watch?v=jq7gP0KiL1E

Here’s a timeline of important milestones over the last six months in Afghanistan:

Most of Afghanistan’s air force defected to Uzbekistan.
https://www.thedrive.com/the-war-zone/42040/dozens-of-u-s-bought-afghan-air-force-aircraft-are-now-orphaned-at-an-uzbek-airfield

Is Afghanistan really a “Graveyard of Empires”?
https://www.politico.com/news/magazine/2021/08/28/afghanistan-graveyard-britain-us-russia-506990

“China in ten years will not exist as a functional nation-state.” [I’m deeply skeptical, but I admire the boldness of the prediction.]
https://www.youtube.com/watch?v=tIFly9M8K80

India now has two aircraft carriers, but it’s questionable whether they need them. In a war with Pakistan, India’s existing land bases will be sufficient for launching airstrikes, and in a war with China, India would cause the same damage at lower cost if it invested in attack subs and destroyers.
https://www.thedrive.com/the-war-zone/41834/indias-indigenous-aircraft-carrier-has-gone-to-sea-for-the-first-time

‘The unmanned helicopters could be used to surveil areas around the numerous small islands of the highly contested Pacific, for example, using their LIDAR systems to scout for undersea sensors, small unmanned underwater vehicles, or naval mines. In a special operations application, they could provide very up-to-date intelligence on the littorals around target areas prior to swimmer insertions. The same could be said for preparing and scouting for larger amphibious operations.’
https://www.thedrive.com/the-war-zone/41902/small-unmanned-helicopters-used-lasers-to-map-littorals-in-recent-u-s-navy-tests

This clip shows how ergonomics affect a tank’s performance. The Soviet T-62’s cramped interior and poor arrangement of its ammunition slows the human from loading the main gun. Western tanks are larger and more spacious inside, allowing crewmen to load the main guns quickly and safely. Simple metrics like the size of the main gun, armor thickness, and speed don’t even tell half the story of how good a tank is. Lame-sounding things like crew ergonomics, aiming devices, and communications technology are very important.
https://youtu.be/a__ks1GgJRU?t=1504

The first handheld Gauss rifle has been unveiled, and it looks horrible. For $3,775, you get an extremely heavy, long weapon that is only as powerful as a .22 plinker rifle.
https://www.thedrive.com/the-war-zone/41872/preorders-for-this-electromagnetic-rifle-are-being-taken-for-3775

This guy built the bow and arrow version of the Smartgun from “Aliens.”
https://www.youtube.com/watch?v=1MkrNVic7pw

Algeria has finally stopped using leaded gasoline, meaning the substance is now banned worldwide. Leaded gas lowers human IQ and makes people more violent.
https://www.npr.org/2021/08/30/1031429212/the-world-has-finally-stopped-using-leaded-gasoline-algeria-used-the-last-stockp

The concept of using supercomputer models to predict the future is sound, though this particular attempt to pull it off is likely to fail (like at least one previous Pentagon attempt). There will come a day when mass surveillance and personality modeling of every human give rise to a real-time, 1:1 computer simulation of the planet. At that point, it will be possible to extrapolate into the future some unknown amount of time to predict events. The 1:1 model would also let its owners understand how their own actions would affect the population, the economy, and other human systems. Large government agencies (including militaries) and big corporations will start using the simulation results to take surreptitious actions carefully designed to further their own goals. To the rest of us, the events would look disconnected and even unimportant, but they would actually be part of an intricate plan to sway the public’s (or some segment of it) thinking.
https://www.thedrive.com/the-war-zone/41771/the-pentagon-is-experimenting-with-using-artificial-intelligence-to-see-days-in-advance

Elon Musk announced Tesla would unveil a prototype humanoid robot sometime in 2022. Keep in mind that it’s one thing to build a single, million-dollar prototype that can only be shown at demo events, and another to be mass-producing useful robots that people other than the super-rich can afford. I predict robots will be common in the households of upper-income Americans by the end of the 2030s, and they will be able to do hours of useful work per day.
https://www.teslarati.com/tesla-bot-robot-price-specs-2022/

‘Despite their name, materials known as supersolids are not super rigid. Instead, they combine the ordered structure of a solid with the properties of a superfluid — a substance that flows without friction. To picture a supersolid, consider an ice cube immersed in liquid water, with frictionless flow of the water through the cube.’
https://www.nature.com/articles/d41586-021-02191-5

As Earth’s days have grown longer, so has the oxygen content of its atmosphere. The link could be explained by photosynthetic bacteria, which can produce more oxygen when the days are longer.
https://www.sciencemag.org/news/2021/08/totally-new-idea-suggests-longer-days-early-earth-set-stage-complex-life

Progress is being made in the field of achiral DNA synthesis. In labs, we can painstakingly manufacture nucleic acids and proteins that are “mirror images” of naturally occurring versions of those same molecules. Since other organisms lack the enzymes to digest them, achiral biomolecules are extremely stable, meaning they might be optimal for DNA data storage.
https://blogs.sciencemag.org/pipeline/archives/2021/08/02/the-mirror-world

India has approved the world’s first “DNA vaccine,” which is meant to fight COVID-19.
https://www.bbc.com/news/world-asia-india-57774294

A man’s age has less of an effect on the genetic quality of his sperm than previously thought. Additionally, it’s somewhat common for genetically healthy males to produce sperm with genetic defects, meaning it’s more important to sequence the DNA of a sperm donor’s sperm than it is to sequence the DNA from any other part of his body.
https://medicalxpress.com/news/2021-08-human-sperm-mutations-disease-children.html

These LED face masks are the predecessors of much more advanced personal cloaking outfits we will have in 30 years.
https://www.youtube.com/watch?v=W2yTo6r92zw

Thanks to a stubborn minority of Americans refusing to get vaccinated, the U.S. COVID-19 death toll is now predicted to reach 700,000 by mid-October. Had the vaccination rate not dropped a few months ago, that milestone wouldn’t have been reached until well into 2022.
https://www.cbsnews.com/news/covid-deaths-100k-more-predicted-united-states/

Review: “Renaissance”

Plot:

In the year 2054, a powerful French biotech company called “Avalon” is a global leader in anti-aging technology. After one of its best scientists, a young woman named “Ilona,” (ill-LOAN-uh) is kidnapped in Paris for no clear reason and without her anonymous captors issuing any demands, it is up to a police detective named “Karas” (CARE-us) to find her.

During Karas’ investigation, he crosses paths with Ilona’s beautiful sister, with the psychopathic CEO of Avalon, with Ilona’s shadowy scientist mentor, and with several other unsavory characters who all have some small piece of the puzzle. All the while, a mysterious group of assassins follows and spies on his investigation and constantly undermines it by killing witnesses, destroying key pieces of evidence, and even trying to kill him.

Midway through the film, Karas discovers that Ilona might have been abducted because she found a gene therapy technique that stops the aging process, and which would be worth a fortune to her Avalon bosses. I’ll pique your interest with that much exposition, but won’t spoil the plot twists or the ending because Renaissance is a cool movie that you should see for yourself. This is exactly the sort of mid-budget film that we desperately need more of to break the stranglehold that tentpole franchise explosion films have on the box office, but I’m now off topic…

Renaissance takes place in a futuristic yet gritty and recognizable Paris where advanced technology and wealth coexist with poverty and crime. The movie is animated and in black-and-white, clearly reflecting the director’s aspiration to the film noir genre. It’s dark, moody, suspenseful, and most of the scenes happen at night, which is a vision of the future we probably have Blade Runner to thank for. The characters are mostly well-acted.

Paris in 2054 can be a grim place

One complaint I have about the movie is that the last third of it has several plot twists where the actors behave in uncharacteristic or irrational ways, or where unbelievable events happen. Examples include Karas magically uncuffing himself from a railing when he doesn’t have the key, no police showing up after a man is shot by someone in a low-hovering helicopter in the middle of the city, and a team of thugs in invisibility cloaks beating up and then abducting a man in broad daylight, in the middle of a crowd, right next to the Eiffel Tower.

A bigger gripe I have with the film is with the notion that medical immortality is wrong or will automatically lead to a horrible world, and that, in the words of one of the characters “Without death, life is meaningless.” That kind of argumentation has always been nothing more than people trying to rationalize something that is unpleasant but inevitable. Death is horrible, life is great, and death renders life meaningless once death happens and a little bit of time passes. If given the opportunity, we should try to end death and worry about the consequences (e.g. – overpopulation) later.

Moreover, if we accept the premise that technologies that extend life are wrong, or that they give biotech companies too much power, then it’s a slippery slope to using the exact same argument to ban medical treatments that extend peoples’ lives today beyond their “natural limits.” Blood and organ transfusions aren’t natural, and extend the lives of people who, in a natural human state, would have died. Vaccines that keep people from dying of diseases like COVID-19 aren’t natural.

Relatedly, I reject the film’s notion that having the formula for eternal life in the hands of a for-profit biotech company like Avalon would “give them too much power” or make the world worse off. To sell the life extension pills, Avalon would have to first patent them, which would mean making public their chemical formula along with lab studies detailing what they do at the cellular level. After 20 years, the patent would expire, and any other biotech company that wanted to manufacture and sell generic pills would be able to, simply by copying the aforementioned information Avalon had made public. True, for the first 20 years, Avalon’s monopoly would allow it to price-gouge, “play God,” and make enormous profits, but after that, competition from other drug companies would drive the prices low enough for anyone to afford it. It would be a small price to pay in the long run. (Without the guarantee of the 20 year sales monopoly, pharmaceutical companies would have no incentives to invest money into developing new medicines off all kinds, which would cause that area of medical science to stall, causing enormous human suffering.)

But in reality, if something as valuable as an eternal life pill existed, governments might ignore patent laws and make copies of the pills for mass distribution to their own citizens. Companies like Avalon can file lawsuits through international venues for intellectual property infringement, but in the end, there’s only so much they can do to punish sovereign countries, especially bigger ones. Case in point is the Indian government’s collusion with indigenous drug companies to make cheap copies of patented American and European drugs.

Analysis:

Holographic ID card. Only the left edge of the card has physical substance. The rest is a projection.

People will use holographic ID cards instead of ID cards that are just made of paper. In the film, there are small, L-shaped devices that can generate holographic images that float in three-dimensional space. Presumably, the devices do this thanks to tiny light emitters. These have replaced old-fashioned paper photo ID cards and business cards. This technology will not be used in 2054 because 1) the hologram has no advantage over laminated paper for this type of simple object and 2) it’s simply impossible to make holographic, 3D images that “float” in the air like that. Quoting some well-phrased technical text I found on this subject:

A hologram cannot, when viewed from any angle, protrude from the surface, as seen from an angle, further than the edge of the hologram, meaning that it can only be about as tall as it is wide. If this seems a little confusing, Michael Bove put it this way: “Any reconstructed object has to lie along a line that goes from your eye to somewhere on the physical display device.”‘

A holographic tablet computer. Note the “L” shaped part of the device the user’s hand is gripping.

People will use holographic computer tablets instead of normal tablets. In the movie, larger versions of the aforementioned L-shaped devices are also used to make holographic computer tablets. As before, science simply does not allow the existence of this technology. However, by 2054, rectangular tablet computers will be capable of projecting high-def holographic images out at the viewer’s face. In other words, you could watch 3D movies on your tablet without having to wear 3D glasses. However, if you slowly tilted the tablet away from you, the illusion of depth would become clear to your eye as the images no longer popped out of the screen at your face.

The problem with transparent computer monitors is illustrated here. The secretary is looking at the detective’s personal file as he approaches her desk. He knows this because he can see the image from his vantage.

Transparent computer monitors will be in use. The technology will surely be available by 2054, but no one will use it because 1) transparent screens undermine your own privacy by letting everyone else see what you’re looking at and because 2) they’re harder for you to read off of than opaque screens with solid-colored backgrounds. Certainly, desktop computer monitors will be even thinner than they are today and might need smaller base plates thanks to their lighter weight, but that’s not going to translate into much of a practical gain. As the average screen creeps up in size, they’ll get more wobbly and cumbersome even as they get thinner, which will preserve the need for sturdy baseplates.

Cloaked outfits will exist. Several Avalon corporation henchmen are featured in the film, doing the CEO’s dirty work by tailing Karas, secretly surveilling and undermining his investigation, and killing off key people who knew Ilona. They seem to have better technology than the police, including hooded outfits that can turn transparent and cloak them from the naked eye. Cloaking outfits will exist by 2054, and could be in widespread use among people who need to be camouflaged, like paramilitaries, spies and assassins.

One of the film’s corporate thugs wearing an invisibility cloak.

A cloaked outfit could be made out of a flexible fabric studded with millions of color e-ink pixels covering its whole surface (just imagine if your big screen TV were paper-thin and flexible, and you could cut it into smaller pieces and then sew them together to make a T-shirt), and interspersed with a smaller number of pinhole-sized cameras. The cameras would constantly watch the changing colors and visual patterns to one side of your body, and tell the e-ink dots on the exact opposite side of your body to change colors to match it, so anyone looking at you would “see through” you. If you stood with your back to a red brick wall ten feet behind you, the front of your shirt and pants would turn red and would display rectangles. However, the cloaked outfit wouldn’t be able to disguise you from every possible viewing angle, so to people at ground level looking straight at your front, you might be hidden, but to someone in a tree looking down at you at an angle, you’d pop out as a red human silhouette with 10 feet of green grass separating you from the red brick wall behind you. As such, the 360 degree cloaking technology depicted in Renaissance is probably impossible, and if you were wearing a cloaked outfit from 2054, you’d still have to be very mindful of your surroundings and careful about your movements to stay unseen.

Hunters wear camouflage outfits that are designed to exactly match the environments where they plan to hunt. This man’s clothing doesn’t make him “transparent” like a sci-fi cloaking device would, but he might as well be.

Assassins, soldiers, and hunters wearing cloaked outfits would still find that the normal rules about using darkness and obstacles as cover, staying as far as practical from other people or animals, keeping low to the ground, and avoiding places where the landscape sharply changed in appearance (like where a red brick wall meets a green lawn) still applied. On the subject of camouflage, let me add that I think outfits that took snapshots of their surroundings once every few minutes and changed the outfit’s appearance to one of 10 – 20 pre-loaded camo patterns that most closely matched those surroundings (ex – Desert Pattern 1, Desert Pattern 2, Jungle Pattern, Snow Pattern) will be almost as effective as the continuously-updating cloaking outfits in Renaissance, and at lower cost and much less energy consumption.

The cloaking outfits of 2054 will be able to frequently and automatically change their colors and patterns to match their surroundings.

The technology will also find its way into civilian fashion, and by the 2050s, it will be common to encounter people whose outfits display morphing patterns and colors. They could even display lifelike moving images, allowing wearers to become “walking TVs.” People who set their shirts and pants to “camouflage mode” while standing or sitting next to walls would also look like disembodied heads, hands and shoes to passersby. The cloaking outfits will open many weird possibilities.

Also, the same level of technology that will enable the creation of cloaking outfits will also allow the creation of cloaking detectors: If you were worried about a cloaked assassin sneaking up on you, you could wear augmented reality glasses with tiny cameras and sensors that continuously scanned your surroundings for the characteristic visual distortions of a cloaked person, or for other clues (e.g. – sounds of footsteps, possibly body heat).

Visual cloaking technology could also be applied to military and police vehicles and aircraft, and might in fact be used in that role years before they are incorporated into clothing.

Cars will look normal but make electric humming noises. There are a few street scenes in the film where cars are shown, and the depiction seemed accurate. By 2054, batteries will be much better than they are today, meaning higher energy density, lower costs, faster recharge times, and slower wear-out rates. It will be a mature technology that average people won’t consider “weird” or “special.” Instead, it will be the norm (“electric cars” will just be called “cars”), and the vast majority of passenger vehicles (and possibly commercial vehicles) in 2054 will use batteries instead of fossil fuels.

Whatever niche advantages that internal combustion engines still hold in 2054 will be so minimal that it will only be worth buying them in very special cases. This will significantly improve air quality, ease global warming, and reduce noise pollution since electric car motors are almost silent. The quality of life improvements will be felt most by people living in cities (imagine a smog-free L.A. or Beijing) and near highways.

Cars like the defunct “Google Car” will be common in 2054.

Externally, most cars in 2054 will be about the same size and shape as today’s cars since they will still be built to carry human passengers in comfort, safety and style. However, in urban areas, where traffic moves slowly, non-traditional-looking subcompact vehicles designed for no-frills transport of humans or light cargo will be common sights.

By 2054, car ownership rates will be lower than today, and many people will find it cheaper and no less convenient to use self-driving cabs for transportation. Since most car rides are single-person trips to or from work or the local store, it would be more efficient if the self-driving vehicle fleet consisted of more subcompact cars. Laws requiring features like crumple zones and rollbars will be waived for autonomous vehicles meant to transport cargo only, allowing them to be smaller, cheaper, and lighter.

People will still drive their own cars. All the cars that we get close looks at in the film have steering wheels, and in the big chase scene where Karas goes after a suspect, there’s a lot of classic gear-shifting, grimacing, and stiff turning of steering wheels to ram other cars or careen off-road. This is somewhat accurate for 2054.

Self-driving cars will be old technology by then, and most of the vehicle fleet–particularly in developed countries like France–will consist of self-driving vehicles. It will be rarer for adults to have drivers licenses than it is today due to a lack of any need for one. However, I think many humans will still choose to drive their own cars, mostly for pleasure (for this same reason, some people today like riding motorcycles or stick-shift sports cars when a basic, automatic transmission sedan will transport them just as well), but in some cases due to bona fide occupational or lifestyle needs. However, even human-driven cars will still make heavy use of AI for the sake of safety, and the cars might override human attempts to drive recklessly.

But it might be possible to turn the AI off, in which case you could speed down the highway, ram people, and drive the wrong way. And thanks to that possibility, the police will have a professional need to have drivers licenses and to be able to have full control over their patrol cars so they could also break traffic laws for pursuits. And so…yes, even in 2054, high-speed car chases like that shown in the film will still be happening.  

Wall-sized computer monitors will exist. In the police headquarters, there’s a “command center” room whose walls are covered with giant computer monitors. The central area of the room also has several personal computer terminals, whose monitors can be shared with the main wall monitors. Karas and his colleagues use the room to go through mugshots of potential suspects and to watch surveillance videos together. Wall-sized computer/TV monitors will be old technology by 2054. In fact, TV screens that take up entire walls of houses and offices should become common by the end of the 2030s. The screens will probably be thin, flexible, and installed as if they were wallpaper.

Wall-sized display at the police HQ

By 2054, the screens will probably be capable of displaying ultra high-res holographic images that seem to pop out at the viewer. Many of the characters in Renaissance were in their 20s, meaning they were born too late to have known what the world was like when TVs and computer monitors were discrete, relatively small objects, and not every seemingly inanimate wall could suddenly come to life with moving pictures and interact with you. This is just one example of how technology will become increasingly invisible yet omnipresent as time passes–ever-more integrated into our surroundings and bodies.

People will have enhanced eyes with HUDs and the ability to see through solid objects. Karas has technologically enhanced vision that lets him see simple shapes and alphanumeric characters overlaying things in his field of view (ex – people have circles around them), and that lets him see ghosted silhouettes of people who are fully or partly obscured by solid objects, such as an armed bad guy hiding behind a tree trunk. His eyes look normal, so the abilities must be thanks to contact lenses or devices implanted inside his eyeballs. These enhanced vision capabilities will exist in 2054. Several different technologies are being represented here, so let me parse them out.

Karas’ augmented vision, presumably thanks to contact lenses

First, Karas must have cameras on his person that are continuously scanning his environment, and which are able to quickly recognize what they see. Circles are displayed around people because the image recognition algorithms in Karas’ personal devices know what humans look like. As Facebook’s face detection algorithm demonstrates every time you upload photos of people, computers are already excellent at recognizing distinctively human features in photographs. Getting them to make those identifications in camera video feeds is simply a matter of increasing the processing speed of the same algorithms. After all, a video feed is nothing more than many still photos presented in quick succession. I have no doubt that portable personal computing devices will be able to do this by 2054.

Second, Karas’ augmented vision device allows him to “see through” solid objects, mainly to spot bad guys he’s trying to shoot. Such obstructing objects include a large concrete sculpture and a thick tree trunk. Your first guess about how he is able to do this is probably “heat vision,” and it is also wrong. Thermal vision cameras can’t actually see through solid objects. Being able to see non-visible portions of the light spectrum like infrared and ultraviolent is also unhelpful since they can’t pass through large solid objects, either. Radio waves would pass through the object and the person, so you wouldn’t get useful information about what was on the other side.

I think what’s really going on is Karas is not actually seeing through solid objects: his visioning device is using camera footage of his surroundings to rapidly build a 3D model of the room–including the places where people are standing–and then superimposing virtual images of human silhouettes over solid objects to give him an idea of where people are hiding as they become obscured by those objects. Whenever he has a clear line of sight to someone, Karas’ devices note their location in 3D space, and continue displaying their last known location as a silhouette even if they become hidden from view by a large object. In cases where people’s bodies are only partly concealed by objects, Karas’ device builds a partial silhouette of the hidden part of their body based on their posture, biomechanics, and the bilateral symmetry of the human body. This capability would require similar visual pattern recognition technology as the HUD, and portable, personal computing devices will be able to support it by 2054.

It’s also possible that Karas’ visioning device makes use of reflected light to “see” people who are hiding behind objects. Several groups of researchers have experimented with different variations of this nascent technique, but they all involve using one or two light emitters to send pulses of light towards a freestanding object, and then carefully analyzing the subsequent patterns of light reflections to piece together what the obscured backside of the object looks like. The pulses of light are invisible to the naked eye. Devices that do this could be man-portable by 2054, though I doubt they will be so small that they could be incorporated into contact lenses or eye implants. Something the size of a gun scope is more realistic.

Third, Karas is able to have his enhanced vision without wearing bulky goggles or even thin-framed glasses. The virtual images thus appear in his field of view either thanks to augmented reality contact lenses or eye implants. While computers and cameras will be much faster, smaller, and better in 2054, I doubt something as small as a contact lens or eye implant could do all of this computation. Powering the devices would also be a major problem, even if they had integral batteries that were 10x as energy-dense as today’s. Heat dissipation would also be a problem, as the waste heat generated by the battery and processor could literally burn your eyes out.

With these impracticalities in mind, I think Karas must have some other, larger computing device on his person–perhaps just a smartphone in his pocket–that does all the data processing and contains a power source for all his worn devices. Data and electricity would be shared through a local area network (LAN): The smartphone would receive wireless video feeds and other data from tiny cameras and sensors Karas had embedded in his clothing or maybe in his eye device, the smartphone would then do the image analyses described in this section, and then it would beam data signals and electricity to Karas’ eye devices, telling them what virtual images to overlay over his field of vision. This way, the eye devices wouldn’t get hot and wouldn’t need integral batteries of their own. A real-world 2054 scenario might also involve Karas wearing more substantial sensor devices, like something attached to his pistol or integrated into some type of headwear, to collect the scanning data.

Finally, let me point out that augmented reality glasses could do all of this without a LAN, and glasses will be old tech by 2054. The Avalon corporate thugs wore goggles that also gave them augmented vision, including telescopic zoom ability. They also had sensitive, directional microphones somewhere on their kit, which, along with the goggle zoom, allowed them to spy on Karas from long distances.

Holodecks will exist. After being abducted, Ilona is imprisoned inside a medium-sized room that is similar to a holodeck from Star Trek. From a different room, her mysterious captors can use a desktop computer to change the appearance of the room to simulate different environments. When the “forest” environment is selected, the room’s bare white walls, floor and ceiling change in appearance accordingly: virtual grass and trees sprout from the ground, and in the distance, there only appears to be more vegetation.

A bare room transforming into a forest through some holodeck technology. The vegetation is still “forming.”

While the holodeck’s operating principles are never explained, I think it is based on the same 3D hologram technology that has replaced paper cards and rectangular tablet computers in the film. And as I said before, 3D holograms that float in fixed points in space are impossible. However, a similar effect could probably be achieved by covering the walls, floor and ceiling with the paper-thin displays that could show holographic moving pictures that seemed to pop out at the viewer. Tiny cameras could track the gaze and posture of the person inside the holodeck, and continuously adjust the pictures being displayed on the room’s giant displays to compensate for changes to their visual perspective resulting from their movement. However, even if you could get this to work, the holodeck user experience would be severely limited since you wouldn’t be able to walk far before your face hit a wall, which would ruin the illusion (at one point, Ilona runs around her holodeck prison in frustration but implausibly, doesn’t hit anything).

The whole floor could be an omnidirectional treadmill whose surface was made of a flexible holographic display, but even in 2054, that setup is going to be very expensive. In 2054, for full-immersion virtual reality experiences, it’s going to be much cheaper and better to use VR glasses, earpieces, and maybe a tactile body suit, and at the rate things are going, I’m sure all of those will be mature technologies by then. 

To summarize: By 2054, it will be possible to make virtual reality holodeck rooms where you could experience some environment like a forest, but it won’t look as good as what was in Renaissance, actually exploring the environment by walking around will be problematic, and there will be very few holodecks because there will be better ways to access virtual reality.

Cell phone implants will be in use. Karas wears a nickel-sized device behind his right ear that is embossed with the “Motorola” symbol and serves as a cell phone by transmitting telephonic sounds to him. Whenever someone calls him on the phone, he hears their voice in his head.

The device is worn in the same place as real-life bone-anchored hearing devices for people with hearing problems, so it probably works via the same principle of conducting sound waves through the skull into the inner ear. There might even be a direct wire link to the auditory nerve. Karas removes it by simply pulling it off with his fingers, which makes me think the device has two parts: one has been permanently installed in his body via skull surgery, and the other is the removeable circular piece, which probably contains the power source, microphone, and maybe computer processors. The detachable piece could be held on by magnets or an advanced adhesive, though keeping it from being accidentally knocked off by your shirt or jacket collar rubbing against it could be a very hard engineering problem.

While this technology is feasible for 2054, the fact that it requires a hole to be drilled into your skull will hold back its widescale adoption until we have developed very advanced surgical methods that are also very cheap. Don’t expect that until long after 2054. However, it’s conceivable that implants might be better than worn devices like Bluetooths and hearing aids–especially if they directly interface with human auditory nerves–and as such could come into common use among police officers, soldiers, spies, and other elite people whose professions directly benefit from having heightened senses. Small numbers of those people might have implants.

In 2054, it’s much more likely that people who want to do hands-free phone calls will buy removable earpieces, like today’s Bluetooth Headsets.

People will do video calls all the time. Karas’ hearing and vision devices let him do several video calls with his boss and colleagues. He hears their words through his hearing device, and sees their faces in front of him as ghosted HUD footage thanks to his eye devices. (Presumably, the people on the other end have webcams pointed at their faces.) So, while Karas is walking down the street running errands, he’s also seeing his boss’ semi-transparent head floating in front of him and hearing her voice in his head. To other people on the street, he seems to be talking to himself when he’s actually talking to her. (Telling schizophrenics apart from normal people will be that much harder in the future.)

The technology of 2054 will make this scenario possible, though I doubt people will use it much since there’s usually nothing to be gained from seeing the other person’s face. In fact, it often makes interactions less pleasant and more unwieldy, especially when you’re conversing with your naggy boss or an emotional colleague. Many people also want to stay unseen due to insecurities about their looks.

People have already shown a preference for minimalism in digital communication with texting increasingly replacing audio phone calls. There’s no reason to assume this trend will flip in the future and people will want to do video calls for every small thing.

A cure for aging will have been found. A crucial plot twist happens when Karas discovers Ilona had made a breakthrough in her anti-aging research right before she was kidnapped. The full details are never revealed, but it is said to be some kind of gene therapy that halts the aging process in humans. Such a thing would radically extend human lifespan, though it wouldn’t make humans truly “immortal” since we would still die from causes other than aging, like infectious diseases, accidents, murders, and suicides. I doubt such a cure will be found that soon, but lifespans will still be significantly longer in 2054 than today, and part of the gain will probably owe to drugs that slow, but don’t stop, the aging process. Some lifespan gains will also come from technologies allowing the replacement of worn-out organs.

From what little we know about the aging process and its complexity, it is already obvious that there will never be a simple, one-shot cure for it. Instead, a combination of many different technologies (in situ stem cell therapies, organ cloning, synthetic organ implantation, maybe brain transplants into newer bodies) will extend life and then, in the very long run, defeat aging and death. I don’t expect that until well into the 22nd century.

There will be transparent floors. In Renaissance Paris, many of the city’s highways have glass enclosures built around them, effectively turning them into tunnels. Pedestrians can walk over the flat roofs of those tunnels and see the cars below. Some underground Metro stations also have glass ceilings that function as glass floors for people walking above, at street level.

It’s an interesting infrastructure idea actually has merits beyond just being aesthetically pleasing. Enclosing the roads like that improves safety for both drivers and pedestrians since there’s far less risk of someone walking into the roadway. The highway is also no longer a barrier to human movement, which improves the walkability and potential uses of the topside space. The glass enclosures also contain the road noises and any air pollution the vehicles might be making (the tunnel air could be run through filters). The fact that the glass lets in natural sunlight to recessed highways and Metro stations that would otherwise be artificially lit is also of psychological benefit to users of both.

The only problem with this idea is that it would give perverts easy views up ladies’ skirts. Of course, that could be fixed by slightly frosting over the glass or by incorporating distorting undulations into the material, as is commonly done with glass building blocks today.

It’s very possible that we could have discovered some transparent material that exceeds glass’ strength and cost performance to such an extent that it is economical to use as a building material as it was in the film. It would be a desirable feature in stylish cities like Paris.

Links:

  1. Today’s LED masks are much cruder versions of cloaked outfits that will exist someday.
    https://www.youtube.com/watch?v=W2yTo6r92zw

Interesting articles, July 2021

As the U.S. withdraws it troops from Afghanistan after almost 20 years, the Taliban are rapidly taking over the country. Photos and videos show Taliban troops capturing large numbers of U.S.-made fighting vehicles, and Afghan government forces surrendering.
https://www.oryxspioenkop.com/2021/06/disaster-at-hand-documenting-afghan.html

More on that:
https://www.nbcnews.com/news/world/troops-flee-taliban-take-districts-northeast-afghanistan-n1273062
https://www.bbc.com/news/world-asia-57818221

Ethiopia’s army suffered a stunning defeat in the rebellious Tigray province. Thousands of their troops were captured and marched in front of cameras.
https://www.nytimes.com/2021/07/02/world/africa/tigray-ethiopia-soldiers-captured.html

Here’s an interesting glimpse into a Syrian Army tank repair shop. Their mechanics made the best use of what they had during the civil war.
https://www.oryxspioenkop.com/2020/08/a-look-inside-damascus-armour-repair.html

In 2020, the small U.S. aircraft carrier Bonhomme Richard suffered a fire that caused so much damage the ship was sent to the scrapyard. The Navy now says that one of its sailors deliberately lit the fire.
https://www.npr.org/2021/07/29/1022514854/sailor-charged-arson-uss-bonhomme-richard-navy-san-diego

British and Chinese aircraft carriers are both conducting missions in the South China Sea.
https://www.thedrive.com/the-war-zone/41752/british-and-chinese-aircraft-carriers-both-underway-in-the-tense-south-china-sea

China is making impressive progress building its third aircraft carrier, which will be significantly larger and more advanced than its other two.
https://www.csis.org/analysis/progress-report-chinas-type-003-carrier

A fast way to stop a Chinese amphibious invasion of Taiwan might be for U.S. bombers to drop naval mines in the water.
https://nationalinterest.org/blog/reboot/stop-chinese-invasion-b-52s-could-drop-mines-taiwan-strait-189127

The American submarine USS Thresher accidentally sank off the East Coast in 1963. For decades, the Navy claimed the sinking drowned the 129-man crew immediately. However, recently declassified reports suggest that some of them survived for as long as 30 hours. Being trapped in an air pocket inside a sunken vessel and slowly suffocating is one of the worst ways to die I know of.
https://www.thedrive.com/the-war-zone/41523/uss-threshers-crew-may-have-survived-many-hours-after-its-disappearance-according-to-new-docs

From 1984: ‘A senior Marine general [Lt. Gen. Bernard E. Trainor] said today that a limited war with the Soviet Union in this generation is an “almost inevitable probability” and that the United States should be prepared to prevail in such a conflict…”Given what’s happening with Soviet power projection, we probably at some point in our lifetime will clash.”
https://www.washingtonpost.com/archive/politics/1984/06/22/limited-soviet-war-held-almost-inevitable/14709f97-3573-45e1-9fd6-432cfb06898e/

British children of 1966 sure were well-spoken, thoughtful, and mature compared to modern American children. This video should definitely give us pause about how we have regressed thanks to deficiencies in our culture and public education. At the same time, the parallels between their bad assumptions and ours today must be acknowledged. Their predictions of global catastrophe and/or being forced into totally different ways of life by the year 2000 were completely wrong. Likewise, the predictions that modern children would make about global warming doomsday, nuclear war, or robots taking over by, say, 2050, will also end up being wrong.
https://youtu.be/cwHib5wYEj8

A massive forest fire in southern Oregon was less damaging to areas where humans had recently allowed smaller, managed fires to burn. Refusing to accept that wild fires are part of nature’s cycle of birth, death, and renewal has led to terrible policy of suppressing most fires, inevitably leading to a huge buildup of dead and dry wood in forests, which in turn leads to mega-fires that can’t be controlled.
https://www.npr.org/2021/07/20/1018522825/bootleg-wildfire-forest-management

‘Overall, our results imply that ridesharing has decreased US alcohol-related traffic fatalities by 6.1% and reduced total US traffic fatalities by 4.0%.’
https://www.nber.org/papers/w29071

The founder of the electric truck startup named “Nikola” has been indicted for fraud. The truck technology was a scam.
https://social.techcrunch.com/2021/07/29/nikola-founder-trevor-milton-indicted-on-three-counts-of-fraud/

Mark Zuckerberg believes that virtual reality and augmented reality headsets now used for gaming will, by 2030, be commonly used for work purposes, allowing for vastly better teleworking. He calls this world of virtual reality meetings, virtual workstations, and hybrid reality the “metaverse.” The concept is little different from what Ray Kurzweil foresaw over 20 years ago.
https://www.theverge.com/22588022/mark-zuckerberg-facebook-ceo-metaverse-interview

A new type of app lets players of first-person-shooter video games cheat, and is undetectable. The app watches the footage being displayed on the user’s computer screen, uses pattern recognition to identify enemy players in split seconds, and re-centers the player’s weapon crosshair over those enemies. As a result, the cheating player has perfect aim, and merely needs to push the “fire” button on his controller to always kill an enemy. Variations of this technology could be used to make the ultimate ad-blockers.
https://youtu.be/revk5r5vqxA

Fully convincing computer voice synthesis is coming soon. Famous people will be able to sell the rights to their distinctive voice prints, and small-scale human voice actors could lose their jobs.
https://www.latimes.com/entertainment-arts/story/2021-07-26/la-et-anthony-bourdain-deepfake-ai-voice-documentary-audio-cgi

AI company Deep Mind used an advanced program called “AlphaFold” to predict the structures of 350,000 proteins, including all of the roughly 20,000 proteins found in the human body. It will take a lot of time to verify all of their predictions, but so far, they have been very accurate.
https://www.bbc.com/news/science-environment-57929095

A chemist who has spent much of his career developing new drugs offers this analysis of how impactful AlphaFold will be to his field.
https://blogs.sciencemag.org/pipeline/archives/2021/07/23/more-protein-folding-progress-whats-it-mean

More genes that code for human obesity have been found.
https://science.sciencemag.org/content/373/6550/30

The first human conceived through “preimplantation genetic testing for polygenic disorders” (PGT-P) has been born. This is one step down from genetic engineering.
https://www.ivfbabble.com/on-the-40th-anniversary-of-the-first-ivf-in-the-usa-the-first-baby-elizabeth-jordan-carr-looks-at-how-science-today-has-produced-a-new-world-first-baby-aurea/

A physically paralyzed and mute man can now communicate thanks to a brain implant that turns his thoughts into computer text. There’s an embedded video showing the man synthesizing sentences in real time. Brain implants that can decode a person’s thoughts will someday let people communicate telepathically, and to use their minds to directly control machines.
https://www.npr.org/sections/health-shots/2021/07/14/1016028911/experimental-brain-implant-lets-man-with-paralysis-turn-his-thoughts-into-words

By genetically engineering plants to have an enzyme that de-methylates RNA molecules in humans, geneticists were able to increase crop yields by 50%.
https://blogs.sciencemag.org/pipeline/archives/2021/07/28/one-lost-methyl-group-huge-amounts-of-food-production

Once lab techniques are perfected, we will be able to cheaply produce any kind of meat, including meats mimicking exotic animals like ‘ostrich, snake, wombat, penguin, and any threatened species currently protected from slaughter.’ We could even synthesize human flesh for consumption.
https://futuristspeaker.com/future-of-agriculture/industrial-meat-growing-facilities-coming-to-a-city-near-you/

Billionaires Richard Branson and Jeff Bezos went into space in private spacecraft they had separately developed.
https://www.bbc.com/news/science-environment-57797297
https://apnews.com/article/jeff-bezos-space-e0afeaa813ff0bdf23c37fe16fd34265

While many cynics pointed out that Branson and Bezos only went into space for a few minutes apiece, they won’t be able to laugh at Elon Musk’s upcoming private space mission. Perhaps before the end of this year, Musk will send four people into space on one of his SpaceX rockets. They will orbit the Earth dozens of times over four days.
https://www.technologyreview.com/2021/02/03/1017255/space-tourism-finally-here-sort-of-spacex-inspiration4/

This is what a Space-X Falcon 9 rocket looks like after making eight trips into space.
https://arstechnica.com/science/2021/07/after-eight-flights-to-space-in-a-year-heres-what-a-falcon-9-looks-like/

During the height of the Space Race, CIA spies secretly examined and photographed a Soviet satellite that was being used as a museum exhibit. Remarkably, the Soviets decided not to make a hollowed-out mockup for this purpose–it was a real satellite containing all the actual components and some of their best technology.
https://www.popsci.com/cias-bold-kidnapping-soviet-spacecraft/

Using a technique called “star lifting,” we could slowly siphon off the Sun’s outer layers of hydrogen, which might shrink it enough to prevent it from turning into a red giant that is projected to expand and fry Earth in 5 billion years.
https://www.gregschool.org/gregschoollessons/2018/5/23/star-lifting-colonizing-the-stars-and-the-galaxies

‘[The WHO head] said there had been a “premature push” to rule out the theory that the virus might have escaped from a Chinese government lab in Wuhan — undermining WHO’s own March report, which concluded that a laboratory leak was “extremely unlikely.”‘
https://www.npr.org/2021/07/15/1016436749/who-chief-wuhan-lab-covid-19-origin-premature-tedros

But it is also premature at this point to conclude COVID-19 definitely had human origins. Other evidence suggests it could have come from nature. The jury is still out.
https://www.npr.org/sections/goatsandsoda/2021/07/19/1016005828/new-data-leads-to-rethinking-once-more-where-the-pandemic-actually-began

The Chinese virology lab from which COVID-19 may have leaked had received some money from the U.S. government to support its research. The U.S. may have inadvertently funded “gain of function” experiments in China that produced COVID-19.
https://www.bbc.com/news/57932699

Worries about side effects caused by the Johnson & Johnson COVID-19 vaccine are overblown, and the net benefits of getting it (or any other FDA-approved vaccine) still massively outweigh the risks.
https://blogs.sciencemag.org/pipeline/archives/2021/07/13/more-on-vaccine-side-effects

The prediction from 13 months ago was right. In the second quarter of 2021, the number of Americans who had received at least one COVID shot hit 100 million. Shortly after, the number that had gotten at least two shots also hit 100 million.

“The first doses [of the COVID-19 vaccine] will need to go to the people who are at highest risk…particularly health care providers, people in long-term care facilities…But the goal would be certainly to start scaling this up as soon as you have a vaccine that’s safe and effective, so that by 2021, maybe even in the first or second quarter, we would have 100 million doses or so, so it wouldn’t have to be rationed so severely. But at first, there won’t be enough for everybody.”
https://www.npr.org/sections/health-shots/2020/06/04/868833292/nih-director-hopes-for-at-least-1-safe-and-effective-vaccine-by-years-end

“Amusing Ourselves to Death” summary

I thought I’d take a break from killer robots and Ray Kurzweil to write a summary of a book I recently read, interspersed with my own thoughts (which are in square brackets). Though at first glace, the book Amusing Ourselves to Death might seem out of place in this blog, it focuses on technology (specifically, television) and its effect on 1980s culture.

My interest in this book was piqued about two years ago when I started hearing it mentioned for its alleged prescience predicting the rise of today’s frenetic social media culture and “cancel culture.” After reading it, it’s clear that many of the defects of 1980s TV culture have carried over to 2020s internet culture, and in that sense, it is prescient. However, the book is in equal measure a time capsule that documents a defunct era, and as such, it serves as useful contrast against the way things are in the present era, and helped me to see how the shift in the dominant technological medium (TV to computer/internet) has changed American culture and behavior.

Doing this led to me to make unhappy realizations, which I invite you to read in the square brackets rather than in a summary here, as this isn’t that long of a blog post.

Chapter 1 – The Medium is the Metaphor

American culture is now focused on amusement. Politics, religion, and social discourse are presented to Americans as entertainment products.

Some proof of this is evident if one considers that the U.S. President at the time of the book’s publication, Ronald Reagan, was a former movie actor. Other presidential candidates were also former TV personalities.

To win a U.S. Presidential election, a candidate must be telegenic. This attribute is just as important as others that are much more critical for the position, like intelligence.

Through studying their audiences, news media companies discovered that viewers would watch news programs more regularly and for longer periods if the newscasters were telegenic. This is why newscasters are now almost universally good-looking and well-spoken.

There are different mediums of communication, and each medium has unique characteristics that determine which types of content it can convey. Each has strengths, weaknesses, and limits:

  • Smoke signals can’t convey complex ideas, so it is impossible to use this medium to discuss philosophy.
  • Television (TV) is a visual medium, so it conveys ideas and stories principally through images and not through words. Things that look unappealing evoke negative reactions from viewers. As a result, an obese man like William Taft couldn’t become President in today’s era of political commercials and televised debates, even if he were in fact the best-suited candidate for the position. [Donald Trump won the 2016 election in spite of being obese and physically ugly in other ways. However, his prowess as a showman overcame those deficits, at least among a sufficient number of American voters to secure him a narrow victory.]

This book’s core thesis is that TV is fundamentally unsuited as a medium for the complex discussion of ideas.

The telegraph brought the “news of the day” into existence: Instant communication allowed everyone to be aware of events everywhere else on the planet, which might sound like a good thing, but hasn’t been because of how the new information has been used. Most of the information presented in the “news of the day” is irrelevant to any particular consumer because it has no impact on him and/or because he can’t exert any influence on the people and events described in it. Stories that fill the news of the day are also usually presented without enough context for consumers to understand them or to draw the proper conclusions from them.

The author, Neil Postman, met Marshall McLuhan, and some of the latter’s ideas influenced this book. However, Postman also disagrees with McLuhan on some points.

A culture’s dominant communications medium will determine how it thinks. America is a TV-dominated culture. [As of the time this analysis is being written, America is well into a transition to being an internet-dominated culture, which is even more hostile to intelligent discourse and maturity. Neil Postman died in 2003, before the invention of smartphones and before the rise of social media, internet celebrities, “curated realities,” and “echo chambers,” and I think he’d view today’s situation as even worse than it was in the 1980s.]

The advents of past technologies have changed how humans think, and expanded what we were capable of imagining.

  • The invention of clocks changed the human relationship with time. Seasons and the sense of eternity lost importance once people had an accurate, finely gradated way to measure time.
  • The invention of writing allowed humans to synthesize more complex ideas. Once written down, ideas can be studied, their flaws found, and the ideas either rejected or revised.
  • Writing also allowed ideas to spread faster and more widely, since they persisted over time and could be received by more people.

America is transitioning from a print/writing culture to a visual culture.

Chapter 2 – Media as Epistemology

TV has made American public discourse silly and dangerous.

The medium determines what is considered to be “true.” Proof:

  • Oral cultures that lack writing systems rely on proverbs and sayings to remember what is “true” or “right.” “Haste makes waste” is a good example of one of these. In oral cultures, these will be more commonly known and taken seriously.
  • A relevant anecdote from when the author was examining a Ph.D. dissertation: ‘You are mistaken in believing that the form in which an idea is conveyed is irrelevant to its truth. In the academic world, the published word is invested with greater prestige and authenticity than the spoken word. What people say is assumed to be more casually uttered than what they write. The written word is assumed to have been reflected upon and revised by its author, reviewed by authorities and editors. It is easier to verify or refute, and it is invested with an impersonal and objective character…The written word endures, the spoken word disappears; and that is why writing is closer to the truth than speaking. Moreover, we are sure you would prefer that this commission produce a written statement that you have passed your examination (should you do so) than for us merely to tell you that you have, and leave it at that. Our written statement would represent the “truth.” Our oral agreement would be only a rumor.’
  • [One of the worst aspects of social media is that content can be produced and circulated instantaneously, like speech, but that it persists permanently, like writing. As a result, social media is awash in impulsive utterances that unfairly destroy careers and lives in seconds.]
  • The ancient Athenians considered “rhetoric,” the persuasiveness and emotion of an oral performance, to be the best measure of its truthfulness. Good public speaking skills were prized personal attributes. [The problem in elevating this to such a high level of cultural importance is that it is entirely possible for a person to be persuasive and dishonest at the same time. The quality or truthfulness of an idea shouldn’t be judged based on how well the person espousing it can debate or think on his feet. A responsible citizen takes the time to study all sides of an issue alone and to make a dispassionate judgement, and doesn’t let himself be swayed by someone who is skilled in manipulating his emotions or forcefully presenting only one half of the story. “You have to convince me” is a lazy and unintellectual stance.]
  • Side note: In spite of their seminal contributions to Western civilization, the philosophers of ancient Greece made the monumental flaw of assuming that all knowledge could be gleaned through deduction. In other words, starting with a handful of facts that were known to the true, they believed they could use reasonable assumptions to discover everything else that was true. This was a fundamentally anti-scientific way of thinking that stymied them, as it led them to believe that new knowledge didn’t need to be gained by running experiments.

Different types of media put different demands on people, leading to those people forming different values:

  • In oral cultures that lack writing, people value the ability to easily memorize things, and the better your memory, the smarter you are perceived as being.
  • In print cultures that have writing, having a good memory is much less important since any person can look up nearly any piece of information. Being able to memorize and recite facts is useful for trivia. People who are able to sit still for long periods in silence reading books, and who can easily absorb the things they read, are perceived as being smart.

Different types of media encourage and nurture different cognitive habits.

TV is an inferior medium to print when it comes to conveying serious ideas.

However, the TV medium has some positive attributes:

  • Having a moving, talking image of another human being in the room with you can provide emotional comfort. TV makes the lives of many isolated people–especially the elderly–slightly better.
  • Films and videos can be highly effective at raising awareness of problems, like racism and social injustice. [The implication is that seeing a lifelike image of someone else suffering is more emotionally impactful than merely reading about it or listening to a third person speak about it.]

Chapter 3 – Typographic America

In 1600s New England, the adult literacy rate was probably the highest in the world. The region was heavily Protestant, and their faith emphasized the importance of reading the Bible to have a more direct relationship with God, so literacy became widespread.

England’s literacy rate was slightly lower than New England’s.

New Englanders also valued schooling, which is another reason why literacy rates were high.

Even among poor colonial New Englanders, literacy rates were high, and reading was a common form of recreation.

The political essay “Common Sense” was published in 1776 as a short book that could be bought cheaply. The percentage of Americans that read it within the first few months of its publication was comparable to the share of Americans that watch the Superbowl today.

Newspapers and pamphlets were more widely read in colonial America than they were in Britain.

By 1800, the U.S. was a fully “print-based” culture. Even in poor parts of the South, literacy rates were high and reading was a common daily activity. The best American authors were as famous then as movie stars are now.

Attending public lectures also became a popular pastime, and by 1830, there were 3,000 lecture halls in America. Average people commonly went to local lecture halls after work to see presentations about academic subjects, as well as to see debates.

The fact that the U.S. was founded by upper-class, intellectual people helped establish the country’s literary culture.

The printing press made epic, lyrical poetry obsolete.

Chapter 4 – The typographic mind

In 1858, U.S. Senate candidates Abraham Lincoln and Stephen Douglas toured Illinois together and held public debates with each other over the subject of slavery. The events took place in seven cities, were well-attended, and each went on for hours. They became known as the “Lincoln-Douglas debates.”

The transcripts of the Debates still exist, and show both men were extremely gifted orators. Their statements were information-dense and assumed a high level of knowledge on the part of listeners; none of what they said was dumbed down. The fact that average people who attended the Debates could understand them indicates that the Americans of the 1850s had better attention spans, listening skills, and probably reading comprehension skills than Americans today. Such are the advantages of being in a print-based culture. [Note that this book was published in 1986, and there’s a widespread belief among Americans now, in 2021, that the internet and personal computing devices have made those three attributes even worse.]

Today’s TV culture promotes stupidity and stupid thinking, by comparison.

The Lincoln-Douglas debates were civil and complex, and so were their audiences. While the Debates were of course conducted orally, much of what was said came from written notes.

By its nature, writing must always convey some kind of proposition. [Meaningless writing might take the form of a series of random words, or bad poetry that no one can understand.] Thus, a print-based culture encourages meaningful and intelligible discourse.

‘Thus, reading is by its nature a serious business. It is also, of course, an essentially rational activity. From Erasmus in the sixteenth century to Elizabeth Eisenstein in the twentieth, almost every scholar who has grappled with the question of what reading does to one’s habits of mind has concluded that the process encourages rationality; that the sequential, propositional character of the written word fosters what Walter Ong calls the “analytic management of knowledge.” To engage the written word means to follow a line of thought, which requires considerable powers of classifying, inference-making and reasoning. It means to uncover lies, confusions, and overgeneralizations, to detect abuses of logic and common sense. It also means to weigh ideas, to compare and contrast assertions, to connect one generalization to another.’

[I independently came to the same conclusion years ago. Written communication’s great advantage is that it forces a person to reflect upon his own thoughts and to organize them into a rational form. This is crucially important since raw human thinking is chaotic, fragmentary and impulsive. This also leads me to believe that mind-reading technologies that allow people to share thoughts will have major downsides. Having direct access to another person’s inner monologue in real time could be confusing and lead to strife as you became aware of every fleeting thought and uncontrollable impulse they had. In most cases, it would be preferable to wait a little longer for them to convert their thoughts into spoken or written words.]

Reading and writing require and encourage grounded, meaningful, analytical thinking. Watching TV does not.

By necessity, writing must be orderly, so reading encourages orderly thinking. It even promotes more orderly verbal discourse between people.

It’s no coincidence that the Age of Reason happened while print culture was at its peak in the West:

  • Rise of capitalism
  • Rise of skepticism of religion
  • Divine right of kings rejected
  • Rise of idea of continuous progress
  • Rise of an appreciation for the value of mass literacy

Early American theologians were brilliant, literary men who valued education, including in secular subjects. Congregationalists founded many important universities that still exist.

The different effects of print culture and TV culture on religious discourse are evident if one compares the sermons and religious essays of John Edwards with those of Jerry Falwell. Edwards’ ideas are complex and logically argued, whereas Falwell’s are simpler and designed to play on the listener’s emotions.

Newspaper ads were originally lineal and fact-based. During the 1890s, they changed so as to be amusing and to appeal to consumers’ emotions. The Kodak camera ad featuring the jingo “You Press the Button, We Do the Rest” was the first “modern” ad.

Though no one knew it at the time, this was a bad milestone for print culture, as it marked the dawn of an age when printed words and images would be crafted to manipulate emotions and human psychology, rather than to appeal to reason and to present complete ideas.

Without televisions or even many photos (even in newspapers), Americans in the 1800s knew famous people through their writings and ideas. Few would even have recognized their own President on sight. By contrast, because today’s TV culture is visual and disjointed, we know famous people by their faces and soundbites. [Videos of American political activists being interviewed on the street and asked to name one accomplishment or policy stance of their preferred Presidential candidate attest to this. Often, a person waving around a political placard with a politician’s face on it can’t describe what that politician stands for or plans to do if elected.]

‘To these people, reading was both their connection to and their model of the world. The printed page revealed the world, line by line, page by page, to be a serious, coherent place, capable of management by reason, and of improvement by logical and relevant criticism.

Almost anywhere one looks in the eighteenth and nineteenth centuries, then, one finds the resonances of the printed word and, in particular, its inextricable relationship to all forms of public expression. It may be true, as Charles Beard wrote, that the primary motivation of the writers of the United States Constitution was the protection of their economic interests. But it is also true that they assumed that participation in public life required the capacity to negotiate the printed word. To them, mature citizenship was not conceivable without sophisticated literacy, which is why the voting age in most states was set at twenty-one, and why Jefferson saw in universal education America’s best hope. And that is also why, as Allan Nevins and Henry Steele Commager have pointed out, the voting restrictions against those who owned no property were frequently overlooked, but not one’s inability to read.’

Chapter 5 – The Peek-a-Boo World

In the mid-1800s, two ideas changed American discourse: 1) instant communication (e.g. – speed of ideas and news no longer limited by how fast a person can travel), and 2) the birth of photography.

The telegraph and Morse Code unified and redefined public discourse in the U.S. Previously, the vast majority of news Americans knew of was about local events and local people. It was directly relevant to them, and they could exercise some influence over it. However, the telegraph made it possible for people to hear about events and people from the far-flung corners of the planet, instantaneously. This exponentially increased the quantity of “news” content average Americans were exposed to. However, the vast majority of this new information was irrelevant to them, was about people and things they couldn’t control, and was usually presented without enough contextual information.

Before the telegraph, news was presented rationally, and was about urgent things that had some direct impact on the people receiving the news. After the telegraph, the news largely consisted of irrelevant information that profit-hungry news media companies picked for shock value and entertainment value.

For proof of this, ask yourself the following questions:

  • Aside from weather reports, when is the last time a news story that you heard or read about in the morning convinced you to change your plans for the day, or to take some kind of action you wouldn’t have otherwise taken?
  • When is the last time something you learned from a news report helped you to solve a problem in your everyday life?

The news is mostly trivia. Like sports, it gives people something to talk about, but has no tangible use.

The telegraph created an “information glut” across the world, for the first time in history. However, most of the information has never been useful to most of the people receiving it.

The information glut also changed the cultural definition of what counts as a “smart” person. Smart people are now those who have a very broad but shallow knowledge of disconnected things, most of which are irrelevant to everyday life.

Before the telegraph, the stereotypical “smart” person was one who had deep, contextualized knowledge about a small number of topics. Also, people sought out information for its usefulness to them, they were not awash in a sea of useless information.

[But by this logic, weren’t many of the attendees to the Lincoln-Douglas debates “wasting their time” since they spent hours listening to two men talk about a subject that had no bearing on their daily lives since Illinois was not a slave state and none of them had black friends? The institution of slavery didn’t directly affect them, so wasn’t the subject mere trivia for them? Learning about and talking about things that have no relevance to the needs of the moment, and that affect people different from you is basic civic engagement, and not doing it is just as damaging to a culture as having everyone watch foolish TV programs all day. Though the author could surely render a satisfying answer to this paradox if he were alive, he doesn’t do so in the book, which is a mark against it.]

Photography is a shallow medium since it can’t convey internal states or depict meaning with the same depth as the written word. [I don’t fully agree. Also, recall that the author praised the TV medium’s effectiveness at raising awareness of problems, like racism and social injustice, by depicting human suffering in a way more visceral than the written word. Well, a video is nothing but a series of photographs showed in rapid sequence, so why shouldn’t it be true by extension that photography has the same virtues as video? After all, there are countless, famous photographs that have raised the public’s consciousness about important social issues and tragedies.]

It can also be a deceptive medium since photos can remove images of events and people from their contexts. Like the telegraph, it presents an atomized vision of reality where context is missing. [As an amateur photographer, I strongly agree with this. Walking around on a normal day, and in a not particularly interesting or unusual place, it’s quite possible to take snapshots of objects, people, and landscapes that, thanks to some trick of the lighting, camera angle, or momentary facial expression from a subject, look dramatic or emotionally evocative, and don’t portray what that scene really looked like or felt like to the people who were there at that moment. Black-and-white photography’s stylized appearance and the often-coarse appearance of developed film lends itself particularly well to this.]

It was soon found that news articles and ads that included photos were more eye-catching to people than those without.

“Pseudo-context” refers to how news publishers structure their articles to make them seem relevant and coherent to consumers, when in fact they have neither of those qualities. It’s a deception meant to hide the fact that consumers are being exposed to vast amounts of disconnected stories and facts about irrelevant things.

“Pseudo-events” are events that are deliberately staged to be reported upon by the news media, and in a way that benefits the people who have staged it. Press conferences and speeches to supporters are common examples. Pseudo-events have the superficial trappings of being important and significant, but they actually convey little or no useful or new information. Daniel Boorstin coined the term “pseudo-event” after observing the phenomenon.

[From other research, I found useful contrast between a “real” event with real consequences, and a pseudo-event that merely gives off the impression of being consequential: If the owners of a hotel want to boost their establishment’s value and appeal to customers, a legitimate strategy would be to improve some aspect of the hotel or their operations. This might involve hiring a better chef, installing new plumbing, or repainting the rooms, and then publicly announcing that the changes had been made. An alternative strategy, which could be just as effective at boosting profits, would be to hold a “pseudo-event” in the form of a banquet celebrating the hotel’s 30th anniversary. Important members of the community would be invited and praised, the owners of the hotel would make speeches about how it had somehow served the community, and members of the media would be invited and would almost certainly publish glowing news stories about the event. The perception that the hotel was better and more important than it actually was would be created in the minds of news consumers.]

[Thanks to social media and the proliferation of cable TV channels, we now have what could be called “pseudo news” shows, which superficially resemble respectable, traditional news broadcasts since they have charismatic presenters and move from discussing one recent event or pressing issue to the next, but which are actually entertainment and/or editorialization shows. Real events are brought up, but discussed in misleading ways. The viewer walks away from such a show thinking they are now well-informed, but in fact, they might have been better off not watching the show and never hearing about the event at all.]

Thanks to the information glut, we live in a “peek-a-boo” world full of nonsensical things that are presented to us in entertaining ways.

As a medium, television takes the worst and most distinctive elements of telegraphy and photography to new extremes. TV content is even more decontextualized, deceptive, irrelevant, and slanted towards amusement and shock value.

America now has a “TV culture,” whose features are antithetical to the nation’s former print culture. The deficiencies of TV as a medium make it fundamentally unsuited for supporting intellectual thinking or discourse.

Chapter 6 – The Age of Show Business

TV culture attacks literary culture

[Why does the author skip a discussion of radio culture by jumping from print culture to TV culture?]

American-made TV and film content is a major export. People in other countries consider it more entertaining than their own content. U.S. TV shows and films are more emotionally evocative, visually stimulating, and entertaining. [My years of traveling to other countries confirm this is true. In spite of how hollow and socially corrosive American pop culture is, it excels like none other at appealing to humans across the world. Additionally, the most successful TV shows and films indigenous to other countries usually copy elements from their American counterparts.]

All TV content is presented as entertainment. Even somber news shows are glitzy and entertaining.

The 1983 broadcast of the TV film The Day After was the most prominent attempt to use the TV medium for a serious, intellectual purpose. The film is a docu-drama about a nuclear war between the U.S. and U.S.S.R., and is jarring and disturbing to watch. The national broadcast was presented without commercial interruption, and was punctuated by comments from a panel of well-known American intellectuals including Carl Sagan and Henry Kissinger. Nonetheless, the broadcast failed in its attempt to foster meaningful discussion or insight into the topic, due to the limitations of the TV medium.

For example, the members of the panel never had a real “discussion” with each other–they delivered prepared talking points and avoided deeply addressing each others’ ideas.

A fundamental problem with TV as a medium is that people come across as stupid and/or boring if they pause to think about something, or if they appear uncertain about something. The medium is friendly to people who can give quick responses and who come prepared with rehearsed performances. Hence, TV is unconducive to most intellectuals and to “the act of thinking.” [This is extremely unfortunate, since the best ideas typically come after considerable time spent thinking, and since many great thinkers are not also great performers.]

Studies show that people instinctively prefer TV content that is visually stimulating and fast-paced. This means the sorts of TV programs that could be intellectual and serious, like two smart people sitting at a table having a long, focused discussion, are not considered as interesting. Since TV networks are always striving to find content that generates the highest ratings and hence profits, they naturally eschew those kinds of intelligent, serious programs in favor of flashy, entertaining programs.

[The rise of long-format podcasts in the 2010s partly contradicts this.]

In the U.S., all cultural content is filtered through the TV medium, and as such has acquired the negative qualities of typical TV programming. News programs are glitzy, shocking and entertaining when they should be serious, and religious broadcasts are also made to be entertaining rather than contemplative.

Because everything on TV is presented to Americans this way, Americans have come to expect everything to be entertaining:

  • Legal trials about serious crimes like murder are televised for entertainment and shock value.
  • Education courses include more and more videos that present subjects as entertainment.
  • The 1984 Presidential debates between Ronald Reagan and Walter Mondale were nothing like the Lincoln-Douglas Debates. Instead of spending a lot of time deeply discussing and debating a narrow range of related issues, the 1984 Debates only devoted five minutes to each issue, which was an impossibly short amount of time to discuss any of them in depth or for one participant to rigorously cross-examine the other. There was little focus on the candidates’ ideas or logic undergirding their ideas. Instead, it was a contest of who could get out the best “zingers” and who looked better in front of the camera. [The 2016 and 2020 Presidential Debates were infinitely worse.]

Chapter 7 – “Now…this.”

The expression “Now…this” is commonly used on news broadcasts when moving from one story to the next. It forces viewers to stop thinking about one thing and to focus on another. Its use shows how the news us full of disconnected events, people and ideas.

Studies of viewer preferences show that people are more likely to watch news broadcasts that have physically attractive anchors. News media companies have thus gravitated towards hiring attractive anchors to maximize their ratings and hence profits. [The profit motive is behind most of the dysfunctions in TV and internet news.]

Studies also show that humans are likelier to believe something if the person saying it appears sincere. This more intangible but still detectable quality is also used as a basis for hiring and promotion decisions at TV news stations. This is problematic because such things as skillful liars exist, and there’s no reason an off-putting people can’t be speaking the truth about something.

[To be fair, since this book was published, science has learned a large amount about how nonverbal aspects of communication in the forms of facial microexpressions, eye movements, body language, appropriateness of emotional displays, and other unconscious aspects of speech and behavior reveal deceit. In most cases, people’s instincts let them accurately detect dishonesty or malice.]

The fact that news anchors must recite their lines with a more-or-less upbeat tone, even when describing tragedies, lends a degree of unreality to TV news and prevents the TV medium from accurately conveying the sense of tragedy or loss associated with the event. [What’s the alternative? Should news programs relentlessly dwell on every report of a major loss of life so as to make sure viewers end up feeling depressed and disgusted? It’s a big world, and on any given day, a major loss of life or gruesome crime is happening somewhere, and portraying those events in ways that accurately conveyed their impacts would make the daily news too traumatic and emotionally draining for people to watch.]

[The author’s complaint that TV news anchors lack emotional investment in the stories they report on is obsolescent. The internet age has caused the news media landscape to fragment into thousands of smaller outlets catering to highly specific demographics of viewers. The anchors who lead these new programs are guilty of the opposite sin–overinvestment of emotion into their reporting, and to such a degree that any pretense of neutrality (and sometimes, adult maturity) is sacrificed. The inhuman detachment of 1980s TV news anchors has mostly been replaced by excessive outrage, crocodile tears, sanctimony, and sarcasm.]

“Now…this” is also often used as a lead-in for commercials. The seriousness of news broadcasts is undermined by the fact that they are punctuated by commercials, which are usually lighthearted.

TV news shows avoid complexity and move through a diverse range of stories and topics quickly.

Partly as a result of news broadcasts’ deficiencies, Americans are poorly informed about people and events outside of their country.

Again, the features and limitations of TV as a medium of communication alter how news is presented through it. TV news programs will inevitably gravitate towards presenting news content as entertainment, and as a series of disconnected, bite-sized stories. The result is in fact “disinformation” since it leaves viewers with the false impression that watching a news broadcast has made them well-informed about events, issues and important people, when in fact they aren’t.

TV news broadcasts also annihilate the sense that a “past” exists because all they depict is a churning of “present” events. Things that happened in the past are quickly muscled out by a deluge of new things. The perpetual focus on the present moment makes it harder for news consumers to notice lies and inconsistencies, as the news seldom has the time to dredge up older things that a person said or did that proved to be wrong or contradict what they are saying or doing now.

[Again, the internet age has turned the problem on its head. Because every famous person’s quotes and records of their actions are now available on the internet and instantly searchable, it has become easy to find every tasteless statement, lie, and contradiction, and to package them into a bite-sized product like a social media meme. With access to a lifetime’s worth of records, you can make any person look like an evil liar. If the TV culture of the 1980s was one where there was only ever a “present moment,” the new internet culture is one where you can pick whatever moment you want to live in. If you don’t like a specific politician, you can curate your social media and TV news bubble so as to only allow in negative content about them, including every lie or crass statement from decades ago. As a result, this is an age of cynicism and self-righteousness. While the TV news “gatekeepers” of the 1980s had their flaws and biases, they were more sensible and grounded in reality than the multitudes of amateurs who today manufacture biased memes and make extremist podcasts, and define what “reality” is for a large and growing share of the human population.]

Print culture encourages the opposite mindset. Since it is easy to turn pages back and forth in a book or newspaper, readers are aware of context and of the linear order of events, and they can spot lies and inconsistencies by cross-referencing different passages.

Aspects of Aldous Huxley’s dystopia, described in his book Brave New World, now exist in modern America. The government has no need to censor anything because its citizens are so occupied with silly pursuits and so easily misled by corporate-manufactured disinformation that they have no time or interest in uncovering the truth about the world. Specifically, accurate reporting about important events and people can still be found in America, as can thoughtful discourse about every issue and problem, but few Americans pay attention to it, largely because they consider it to be too boring. The market has given Americans what they want, and it is trash TV and dumbed-down news programs.

Even newspapers are mimicking aspects of TV news broadcasts. USA Today is the leading example of this transition.

Radio is more resistant to the transition, but it is declining nonetheless. Radio broadcasts increasingly resemble TV programs, in the worst ways.

Chapter 8 – Shuffle off to Bethlehem

Televangelists are the new faces of Christianity in America.

Episodes of the 700 Club are slickly made, entertaining, comforting, and superficially serious in tone.

Televangelist shows always focus on the preacher and his personality. God is never the central figure in the broadcasts, and instead exists in the background. Major religious themes like hallowed rituals and achieving transcendence through religion are absent.

Again, the TV medium forces televangelist shows to have these qualities.

The social and psychological meaning of religion in America has changed since people started watching televangelist broadcasts.

  • Traditional, in-person religious services happen in houses of worship, which are quiet, and, in the case of cathedrals, grand places. The central portions of houses of worship are also only ever used for religious ceremonies. As a result, the environments naturally lend themselves to serious and contemplative thinking among visitors. In a church, a person can really immerse himself in prayer and religious thought, and pull himself out of his everyday mindset. [In the modern era of skyscrapers and technological wonders, many of the old cathedrals of Europe are still awe-inspiring. You can appreciate how those same cathedrals would have made peasants feel the grandeur of God in the Middle Ages, when most people lived in terrible conditions and had very little mental stimulation each day. Yes, the form a religious house of worship takes has a major impact on the psychology of its adherents.]
  • By contrast, televangelist broadcasts are watched on living room televisions in private homes. The spaces where religious services thus occur are not consecrated, and the viewer does not associate them with anything especially divine or otherworldly. Viewers associate their own TV sets with entertainment and the secular world, which unconsciously affects how they perceive religious shows. It’s nearly impossible to get into the right mindset. [Will full-immersion virtual reality fix this?]

A valuable and authentic religious experience is enchanting, not entertaining.

Chapter 9 – Reach out and elect someone

The TV commercial is now a metaphor for American politics.

Capitalism is an efficient system for allocating resources only if certain conditions exist. One of those conditions is that buyers and sellers are rational, and the other is that they are just as informed as each other about market conditions and the quality of the good or service they are considering exchanging. In reality, these ideal conditions seldom exist.

Modern advertisements, and especially TV commercials, show how reality diverges from theory in ways that encourage capitalist systems to misallocate resources:

  • In a rational world, companies would only create ads that contained factual information about the quality of their goods and services, and consumers would coolly study different ads to empirically determine which product among the competing companies best satisfied their needs.
  • In the real world, ads contain little or no factual information about the goods or services being offered, and they are instead meticulously designed to prey upon the emotions, insecurities, and psychological weaknesses of consumers. Thanks to ads, consumers are frequently persuaded to spend money on things that don’t satisfy their actual needs well, or at all, and companies offering superior goods and services can go bankrupt if they don’t market themselves the right way.

[As I’ve mentioned before, and plan to discuss at greater length in a future blog post, this inefficiency could shrink and ultimately disappear in the future thanks to better technology. In the very long run, once posthumans and/or AIs take over civilization, the phenomenon of disingenuous marketing will probably vanish since consumers will be too smart and self-controlled to fall for such tricks. Being prey to one’s uncontrollable emotions and not having the cognitive capacity to remember and mentally compare the qualities and prices of different things will turn out to be uniquely Homo sapien problems.]

In modern America, politicians use TV commercials as their primary means of communicating with voters.

By necessity, commercials must be short, and must tell simple stories about things and offer simple solutions to problems. Years of seeing political commercials like these have shaped the expectations of American voters.

To succeed, modern politicians need “image managers,” and they must have personal appeal that comes across clearly on TV. Elections are no longer decided on the basis of which candidate is the better technical fit for the position’s demands; they are decided based on who looks better on TV.

Relevant credentials for holding elected office include:

  • Skills as a negotiator
  • Past success in an executive position
  • Knowledge of international affairs
  • Knowledge of economics

Public speaking ability, physical attractiveness, and debating skills don’t have any bearing on a person’s ability to make good policy decisions in a political position. Unfortunately, few American voters grasp this, and they routinely choose candidates based on those kinds of unimportant traits. The TV medium makes voters aware of those traits.

Commercials have primed Americans to vote for politicians that have the best TV personas.

Americans don’t vote in their own rational self-interests anymore; they vote for politicians who have the best TV images. The term “image politics” describes the phenomenon.

In the past, when America was a print culture, few people saw images of national politicians. They had no clue what different candidates looked like, and had to make voting decisions based on things they read in newspapers and pamphlets, and through discussions with their peers. A candidate’s “image” was not a factor.

Because TV culture is image-based, the medium has the immediacy and decontextualized qualities of photography. In infuses a mindset among its viewers that there is only a present moment, and that the past does not exist. This is partly why Americans know so little about history.

Even in Ancient Greece, a place associated with wisdom and intellectualism, government censorship of books was common (Protagoras).

George Orwell’s prediction that Western governments would eventually resort to book censorship as a way to control their citizens proved wrong. Instead, the same end has been achieved through the creation of fickle cultures in which people don’t want to read books. Huxley’s dystopia proved accurate.

In the U.S., TV censorship is done by the three big corporate media networks, not the government. This is also not what Orwell predicted. [But as internet culture shows, atomizing the media landscape and effectively eliminating the small clique of corporate gatekeepers brings a different set of problems. Now, nothing is censored, and anyone in America can look at whatever he wants. This has led to people self-segregating into highly specific demographics with their own realities and belief systems. It has also worsened the “information overload” problem, and made it harder for people to tell which information is reliable and which is not. ]

TV programs have muscled out books in the competition for Americans’ spare time.

Thanks to TV, Americans can’t tell the difference between entertainment and serious discourse anymore.

Chapter 10 – Teaching as an amusing activity

Sesame Street is a popular show for young children that is both entertaining and educational.

The author is skeptical of claims that any type of TV program can be very educational. Again, this owes to fundamental aspects of TV as a medium. TV watching is a passive, solitary activity, whereas effective classroom instruction is an interactive and social one.

Sesame Street encourages viewers to love TV, not school. In habituating children to TV watching, it and other “educational” programs encourage mindsets and skills that are unlike those they need to excel in the classroom.

TV is the first medium to merge teaching with entertainment. [Is the internet the second?] Learning is not supposed to be pleasurable.

Three commandments of educational TV content:

  1. “Thou shalt have no prerequisites.” A program can’t require the viewer to have previous knowledge, and it must stand alone as a complete package. The process of learning must not be depicted as a sequential one, where learning one thing establishes a foundation for one or more new things.
  2. “Thou shalt induce no perplexity.” All information that the program presents must be simple enough for anyone to understand. This does an injustice, since many concepts are not easy to grasp, and must be thought about again and again until the learner understands them.
  3. “Thou shalt avoid exposition like the ten plagues visited upon Egypt.” All content must be presented as a story, with everything depicted visually. The viewer should never have to read a dense passage of text on the screen or see an intellectual talking at length using complex language.

Classroom instruction is taking on more aspects of entertainment. “The Voyage of the Mimi” epitomizes everything about this trend. It is a 26-episode educational TV series focusing on lessons in science and math. A package of materials includes all the videos, along with worksheets and tests that teachers use in the classroom to accompany the footage.

[Embracing the opposite extreme, which would be an overly serious and intense teaching style where no effort was made to make lessons fun, would also create problems since many students wouldn’t mentally engage. Formal classroom settings are very artificial environments and are especially unnatural for children: For 99% of our species’ existence, there were no classrooms, and children learned things informally and each day from older children and adults, who interacted with them in informal settings or during work. ]

The effectiveness of that series and others like it is dubious. Studies show that students quickly forget almost all the new information they are exposed to in video lessons.

Similarly, people quickly forget most of what they see on TV news broadcasts. However, they remember more information if they read a newspaper. The act of reading is a better way to learn something than watching a video.

As a medium, TV is suited for entertainment, not learning.

[I think the author overreacted to the first intrusions of TV into mass education in the 1980s, possibly because he assumed the trend would continue as time passed, until someday, students only watched TV programs at school. Fortunately, that didn’t come to pass, and classroom instruction is still mostly traditional and didactic, involving a teacher standing at the front of the room where he talks and writes things on a blackboard or big screen.]

Chapter 11 – The Huxleyan warning

We are now living in a Huxleyan dystopia: People voluntarily occupy themselves with entertainment and trivialities. Politics are no longer serious.

If the situation worsens, America could experience “culture-death.”

The Orwellian dystopia is no longer a threat to the world. [It’s too early to say this. As China shows, new technologies have renewed the threat and effectiveness of government-directed mass surveillance and mass control. We could be headed for a future where it is technologically possible to monitor every human in real time, and to even infer what they are thinking and feeling.]

Americans live in an invisible, insidious prison.

America’s Huxleyan dystopia is hard to fight since no one has forcefully imposed it on us, it is not centrally planned, and it lacks a written doctrine like Mein Kampf. It is everywhere and nowhere.

As a technology, TV is destroying American culture. This is hard for Americans to see and to accept, since they have a uniquely strong faith in technology and progress. Convincing them that a technology is hurting them is a major challenge.

[Since the 1980s, Americans’ opinions of technology and progress have become schizophrenic. In the 2020s, there is widespread agreement that social media and biased TV news networks have damaged American culture and discourse, that smartphones and cleverly designed apps have made people addicted to their personal devices, and that civilizational progress has already halted or soon will, leading to a long decline of living standards and order. The preoccupation with global warming doomsday scenarios and the proliferation of post-apocalyptic future movies partly speak to the latter point. At the same time, Americans are unwilling to do much to address these problems, and very few of them are taking any personal measures to prepare for the doomsday futures they say they believe are coming.]

The author’s suggestions for fighting against TV culture:

  • Don’t try banning TV. It’s too popular, so there’s no hope of success, and proposing such a thing will only alienate people.
  • Start a cultural movement in which people take long breaks from TV watching. [Reminds me of today’s phenomena of “digital detoxing” and “social media breaks.”]
  • Ban political commercials.
  • Spread awareness of this book’s main points, including the fact that different types of media have different effects on culture and mindsets.
  • Ironically, an effective way to make people aware of the toxic effects of TV and of the stupidity of TV programming would be to air comedy skits on TV that mocked TV and showed how the programs stupefied their viewers. Use TV to lampoon TV.
  • Better public education.

The author’s passing analysis of personal computers as a medium:

‘For no medium is excessively dangerous if its users understand what its dangers are...To which I might add that questions about the psychic, political and social effects of information are as applicable to the computer as to television. Although I believe the computer to be a vastly overrated technology, I mention it here because, clearly, Americans have accorded it their customary mindless inattention; which means they will use it as they are told, without a whimper. Thus, a central thesis of computer technology–that the principal difficulty we have in solving problems stems from insufficient data–will go unexamined. Until, years from now, when it will be noticed that the massive collection and speed-of-light retrieval of data have been of great value to large-scale organizations but have solved very little of importance to most people and have created at least as many problems for them as they may have solved. ‘

[The analysis is both very wrong and very right. Personal computing devices have transformed society, the economy, and our daily habits so much since the 1980s that it’s hard to defend a claim that they have proved “to be a vastly overrated technology.” However, the author rightly predicted that computing devices paired with the internet would, like TV, inundate people with large amounts of irrelevant, decontextualized information. In fact, the problem has gotten worse since the amount of internet content available now is exponentially larger than the amount of TV content that was available in the 1980s. In the internet era, American politics have gotten more dysfunctional and childish, and elections are decided for more fickle reasons than in the 1980s. Today, Americans actually look back on the 1980s as a calmer and more hopeful era when people had better social skills. Ronald Reagan, whom the author bashes as being a superficial and dishonest man who cleverly exploited the TV medium to become President and hide his later mistakes, was much more intellectual, dignified and well-spoken than Donald Trump, who exploited social media (Twitter, specifically) to become President and to control the national political narrative during his term of office.

It’s certainly true that more data about a problem helps you to formulate a good solution to it, and that personal computing devices and the internet can be used to gather data about problems. However, the medium’s flaw is that bad data is mixed in with good data, it can be very hard for people to tell them apart, and human psychology naturally leads people to latch on to data that are psychologically or emotionally comforting to them. There’s no correlation between how comforting a belief is and how true it is.

The author’s point that the computer / internet era would enrich large organizations that found ways to leverage information technology to make money was very accurate. As of this writing, six of the top ten global companies with the highest market caps are technology companies that use customer data collection and analysis to make most or all of their money.

The author’s final prediction that computers will end up creating at least as many problems for ordinary people as they solve is debatable. Certainly, computing devices and the internet have created a variety of problems and worsened problems that existed during the TV culture era of the 1980s, but the new paradigm has also benefitted people in many important ways. For example, it has made commerce easier and more efficient since customers now have access to a much larger array of goods and services, which they can purchase by pushing a button, without having to leave home. It’s debatable whether computers an the internet have, on balance, not improved the lives of ordinary people.]

Interesting articles, June 2021

Belgian police guarding the meeting between Joe Biden and Vladimir Putin had some heavy-duty anti-drone weapons.
https://arstechnica.com/science/2021/06/decades-in-the-making-russias-nauka-module-to-finally-take-flight/

Eighty years ago, Nazi Germany invaded the Soviet Union.
https://www.france24.com/en/europe/20210621-hitler-s-war-of-annihilation-operation-barbarossa-80-years-on

China won’t invade Taiwan partly because the island’s de facto independent status is too politically valuable to China’s leaders.
https://supchina.com/2021/06/07/no-china-will-not-invade-taiwan/

As U.S. removes its troops from Afghanistan ahead of its 9/11/2021 deadline to end the war there, the Taliban have been rapidly reconquering the country. U.S. intelligence believes the democratic government could collapse as little as six months after the U.S. withdrawal.
https://www.wsj.com/articles/afghan-government-could-collapse-six-months-after-u-s-withdrawal-new-intelligence-assessment-says-11624466743

The Chilean battleship Almirante Latorre was built in Britain and had a fascinating lifetime of service.
https://nationalinterest.org/blog/reboot/how-did-south-american-battleship-end-royal-navy-187486

As huge as modern cargo ships are, they will probably be more than twice as big by midcentury. There is no known engineering limit on how large a ship can be. (In the articles, note that “TEU” = “twenty-foot equivalent unit.” It refers to a rectangular shipping container that is 20′ x 8′ x 8′. A cargo ship with a capacity of 20,000 TEUs can fit 20,000 shipping containers of that size into itself.)
https://www.maritime-executive.com/editorials/50000-teu-the-future-or-not
https://www.mckinsey.com/industries/travel-logistics-and-infrastructure/our-insights/how-container-shipping-could-reinvent-itself-for-the-digital-age#

Would it be cheaper to move cargo between East Asia and North America using a Bering Strait train tunnel that it is to move it via cargo ships? Considering that it’s cheaper to transfer goods between many different points in the U.S. by putting them on ships that go all the way down to the Panama Canal and back than it is to use the national railway network to move them, probably not.
https://www.maritime-executive.com/editorials/comparing-maritime-versus-railway-transportation-costs
https://blogs.voanews.com/russia-watch/2012/04/28/join-russia-and-usa-by-rail-tunnels-under-the-bering-strait/

Facebook’s market cap hit $1 trillion.
https://www.cnn.com/2021/06/28/tech/facebook-trillion-ftc/index.html

Microsoft’s market cap hit $2 trillion.
https://www.bloomberg.com/news/articles/2021-06-22/microsoft-rallies-to-join-apple-in-exclusive-2-trillion-club

Elon Musk’s wife, “Grimes,” released a brief video explaining why AI will resurrect communism. Everything she says in it is logical, and I came to all of the same conclusions years ago. Granted, she oversimplifies it. It’s more accurate to say that, thanks to AI, humans will no longer be able to participate in the capitalist economy, so we’ll all get on welfare, paid for by our hyper-productive machines. We’ll also find that it’s much cheaper and more efficient to replace all government bureaucrats with AIs, and perhaps in the longer run to replace elected politicians with machines programmed to maximize the public good (it is actually possible for a country to be Communist and democratic at the same time, and it is also possible for a dictatorship to be both benign and more efficient than a democracy). The result would be a society that resembled Communism in many ways. All basic and intermediate needs would be paid for by the state, class and wealth differences among humans would vanish since no one would have gainful jobs anymore, the “ability” and “needs” of each human would be known and satisfied, and efficient central planning of the economy would be possible.
https://www.dailymail.co.uk/news/article-9649909/Grimes-goes-TikTok-rant-claiming-artificial-intelligence-key-communist-future.html

Machines are getting better at the art of debate. There’s no reason to believe AIs won’t someday be as persuasive, oratorically gifted, and manipulative as the best human debaters, lawyers, politicians, and conmen.
https://www.nature.com/articles/s41586-021-03215-w

Using prefabricated modules and modular building techniques, a 10-story condo building was erected in only 29 hours in China.
https://www.dailymail.co.uk/news/article-9716291/What-wrong-Chinese-builders-construct-ten-storey-apartment-block-29-HOURS.html

“Prestigious European grants might be biased, study suggests”
https://www.nature.com/articles/d41586-021-01362-8

The FDA has approved the dieting drug “Wegovy,” which reduces body weight by 15%.
https://apnews.com/article/science-obesity-lifestyle-business-health-c6f992d717c6461ef20f40e6d4ee9d25

The FDA also approved the Alzheimer’s treatment drug “Aducanumab,” even though clinical studies failed to show any clear benefits to patients. Some members of the approval body resigned in protest after the decision, and the drug will cost tens of thousands of dollars per user, per year.
https://www.nbcnews.com/health/health-news/two-members-fda-panel-resign-protest-over-alzheimer-s-drug-n1270300

The alleged decline in sperm counts among European and North American men might be grossly exaggerated.
https://reason.com/2021/06/08/spermageddon-has-been-canceled-says-new-study/

“In vitro gametogenesis” (IVG) is an experimental lab technique that turns skin or blood cells from any adult into sperm or egg cells, which can then be used to create embryos. If IVG is perfected, it would effectively open the door to human genetic engineering.
https://www.freethink.com/videos/ivg-in-vitro-gametogenesis

The entire human genome has finally been sequenced. The holdouts were repetitive sections of the chromosomes that don’t code for physical traits.
https://www.youtube.com/watch?v=U88_FTFWUOk

China just activated the Baihetan Dam. It’s the second-biggest dam in the world. The biggest is the Three Gorges Dam, which is also in China.
https://apnews.com/article/china-dams-business-49bd453ecd314b3b1292aaa429c91be6

‘The energy reserves in the upper 10 km of the earth’s crust are approximately 1.3 × 1027 J, which could supply the global energy use for approximately 217 million years.’
https://www.sciencedirect.com/science/article/abs/pii/S1364032117310341

Between 1971 and 2013, nuclear power saved 1.8 million lives.
https://www.ans.org/news/article-1306/friday-matinee-nuclear-power-saves-lives/

In 1973, the U.S. Skylab space station experienced several malfunctions, forcing NASA to plan for a possible evacuation. Two astronauts in a modified Saturn-V rocket would have flown to the station, embarked the three others, and flown back to Earth.
https://en.wikipedia.org/w/index.php?title=Skylab_Rescue

‘The Russians have said they may pull out of the program in 2025 and build a brand-new station. So why launch a new module just a few years before exiting the station? One possibility is that the Russians are simply posturing.’
https://arstechnica.com/science/2021/06/decades-in-the-making-russias-nauka-module-to-finally-take-flight/

Here’s a fascinating video about the Oort Cloud, a sphere of comets and meteoroids encircling our Solar System. It’s really far out and extends to a distance of 1.5 light years.
https://www.youtube.com/watch?v=q4mc-alL92U

Dyson–Harrop satellites would harvest energy from the solar wind, and not from a photovoltaic effect.
https://youtu.be/CCXOmTRX7Fo

‘Dyson Sphere Impracticalities: Although the Dyson sphere can produce very high amounts of power (~4 x 1026 W) [5], its design has a number of disadvantages. If all of the matter in a solar system roughly the mass of ours is used to construct a sphere with radius of just 1 AU, the sphere would only be 8 cm thick (with an average density equal to that of steel). Additionally, it has been calculated [6] that the minimal radius of a Dyson sphere must be at least 1.66 AU in order to successfully dissipate thermal energy absorbed by the Sun in a useful fashion—a smaller sphere could suffer a cataclysmic thermal event (e.g. explosion or melting). Currently, there exist no manmade materials that can stand up to the stress that would be felt at every point along the surface of such a gargantuan structure [7].’
https://www.lpi.usra.edu/meetings/abscicon2010/pdf/5469.pdf

The recent “Chamoli disaster” involved a landslide of snow and massive rocks in India’s Himalayas. They slid down a mountainside, impacted the bottom of the river valley with the force of 15 Hiroshima atom bombs, and the pulverized debris surged down the river fast enough to destroy a dam and kill 200 people.
https://www.bbc.com/news/science-environment-57446224

Around 1960, an artist named “Arthur Radebaugh” made many cartoon drawings depicting his visions of the future. Some came true, others didn’t, and still others came true “in spirit.” Regardless, his art is a cool time capsule from the childhood era of the Baby Boomers.
https://gizmodo.com/42-visions-for-tomorrow-from-the-golden-age-of-futurism-1683553063

On October 9, 1903, the New York Times published an editorial predicting that planes wouldn’t be invented for another “one million to ten million years.” The Wright Brothers’ famous flight happened nine weeks later.
https://nowiknow.com/a-million-years-give-or-take/

From 1989: ‘A senior U.N. environmental official says entire nations could be wiped off the face of the Earth by rising sea levels if the global warming trend is not reversed by the year 2000.’
https://apnews.com/article/bd45c372caf118ec99964ea547880cd0

During the second, panicky month of the pandemic, this was published. It predicted a coronavirus pandemic would kill 65 million people worldwide by now. The figure is in fact 13 million, which is terrible, but falls far short of the simulation’s estimate.
https://nymag.com/intelligencer/2020/02/a-simulated-coronavirus-pandemic-in-2019-killed-65-million.html

The “Delta” variant of COVID-19 originated in India and is rapidly becoming the dominant strain globally because it spreads the fastest between people. It doesn’t seem to be deadlier or more resistant to the vaccines than other strains of the virus.
https://www.politico.eu/article/delta-coronavirus-variant-doubles-risk-of-hospitalization-scottish-study/

The U.S. hit 600,000 deaths, meaning the University of Washington Model was right again. Fortunately, the death rate has sharply dropped, and the Model doesn’t forecast us hitting the 700,000 mark until sometime in 2022.
https://apnews.com/article/coronavirus-pandemic-600k-deaths-us-1ef14a0b998e6ce99281edf6e996dfbe

Review: “Terminator Salvation”

Plot:

Terminator Salvation is a 2009 action / sci-fi film set in the then-future year of 2018. It follows the events of the preceding film, Terminator 3: Rise of the Machines, in which the U.S. military supercomputer “Skynet” initiated a nuclear war in or around 2005 to kick off its longer-term project to exterminate humankind. Nuclear bombs, subsequent conventional warfare between humans and machines, and years of neglect have ruined the landscape. Most of the prewar human population has died, and survivors live in small, impoverished groups that spend most of their time evading Skynet’s killer machine patrols. The film is mostly set in the wreckage of Los Angeles, once one of the world’s most important cities, but now all but abandoned.

The character “John Connor” returns as a leading figure within the human resistance, though his comrades are divided over whether his claims about time travel are true. To some, he is almost a messianic figure who has direct knowledge of events going out to 2029, including Skynet’s inevitable defeat. To others, he is just a good battlefield commander who likes telling unprovable personal stories about time machines and friendly Terminators that visited him and his mother before the nuclear war. Rivalries over military strategy between Connor and a group of generals who are skeptical of him are an important plot element.

John Connor’s father, “Kyle Reese,” is also in the film, but due to the perplexities of time travel, he is younger that Connor in 2018 and has not had sex with the latter’s mother yet. A third key character, named “Marcus Wright,” is a man who wakes up on the outskirts of the L.A. ruins with only fragmentary memories of his own life, and no awareness of the ongoing human-machine war (the first time he sees an armed Terminator walking around, he calls for its help). Unsurprisingly, there’s more to him than meets the eye, and he becomes pivotal to determining the fate of the human resistance.

I thought Terminator Salvation was mediocre overall, and had an overly complicated plot and too many characters. Keeping track of who was a good guy, who was a bad guy, and why one person was threatening or shooting a gun at another was harder than it should have been. Several of the film’s events were also silly or implausible, which inadvertently broke with its otherwise bleak and humorless mood.

At the same time, I liked how Terminator Salvation moved beyond the played-out formula of the previous three films. While the characters mentioned the importance of time travel technology to the success of the human war effort, no one actually did any time traveling in the movie. There was no desperate race to prevent Skynet from starting a nuclear war because the war had already happened. This was also the first Terminator film set in the future, not the present, which let us see a new part of the Terminator franchise universe. The acting was also pretty good.

The potential for a good movie was there, but the filmmakers bogged Terminator Salvation down with too many bad elements. I don’t recommend wasting your time on it.

Analysis:

Machine soldiers will be bad shots. Towards the beginning of the film and again at the end, the humans encounter humanoid “T-600” combat robots, which are armed with miniguns. In both battles, the machines spew enormous volumes of fire (miniguns shoot 33 to 100 bullets per second) at the humans and miss every shot. This is a very inaccurate (pun intended) depiction, as combat robots have the potential to be better than the best human sharpshooters.

In fact, machines were put in charge of aiming larger weapons decades ago. “Fire control computers,” which consider all variables affecting the trajectory of projectiles (i.e. – distance, wind, elevation differences between gun and target, amount of propellant behind the projectile, air density, movement of the platform on which the gun itself it mounted), are used to aim naval guns, tank cannons, antiaircraft machine guns, and other projectile weapon systems. In those roles, they are vastly faster and better than humans.

In the next 20 years, fire control computers will get small enough and cheap enough to go into tactical scopes, and entire armies might be equipped with them as standard equipment. A soldier looking through such a scope would see the crosshair move, indicating where he had to point the gun to hit the target. For example, if the target were very far away, and the bullet’s drop during its flight needed to be compensated for, the crosshair would shift until it was above the target’s head. Smart scopes like these, paired with bullets that could steer themselves a little bit, will practically turn any infantryman into a sniper.

Human-sized combat robots would be even more accurate than that. Under the stress of battlefield conditions, human soldiers commonly make all kinds of mistakes and forget lessons from their training, including those relating to marksmanship. Machines would keep their cool and perform exactly as programmed, all the time. Moreover, simply being a human is a disadvantage, since the very act of breathing and even the tiny body movements caused by heartbeats can jostle a human shooter’s weapon enough to make the bullet miss. Machines would be rock-steady, and capable of very precise, controlled movements for aiming their guns.

Machines wouldn’t just be super-accurate shots, but super-fast shots. From the moment one of them spotted a target, it would be a matter of only three or four seconds–just as long as it takes to raise the gun and swing it in the right direction–before it fired a perfectly aimed shot. With quick, first-shot kills virtually guaranteed, machine soldiers will actually have LESS of a need for fully automatic weapons like the miniguns the Terminators used in the film.

It would have been more realistic if the T-600s had been armed with standard AR-15 rifles that they kept on semi-automatic mode almost all of the time, and if the film had shown them being capable of sniper-like accuracy with the weapons, even though the shots were being fired much faster than a human sniper could. The depiction would also have shown how well-aimed shots at humans safe behind cover (e.g. – good guy pokes his head around corner, and one second later, a bullet hits the wall one inch from his forehead) could be just as “suppressive” and demoralizing as large volumes of inaccurate, automatic gunfire from a machine gun.

So watch out. If your robot butler goes haywire someday, it will be able to do a lot of damage with Great-grandpa’s old M1 Garand you keep in your closet.

Hand-to-hand fights with killer robots will go on and on. There are two scenes where poor John Connor gets into hand-to-hand combat with Terminators. Both times, the fighting is drawn-out, and John survives multiple strikes, grabs and shoves from his machine opponents, allowing him to hit back or scramble away. This is totally unrealistic. A humanoid robot several times stronger than a grown man, made of metal, and unable to feel pain would be able to incapacitate or fatally wound any human with its first strike. The Terminators in the film could have simply grabbed any part of John Connor’s body and squeezed to break all the bones underneath in seconds, causing a grotesque and cripplingly painful injury.

That split-second where you can see it’s Christian Bale’s stuntman and not him.

The protracted, hand-to-hand fights in the film are typical Hollywood action choreography, and are the way they are because they are so dramatic and build tension. They’re also familiar since they resemble matches in professional fighting sports, like boxing, MMA and wrestling. However, we can’t make the mistake of assuming actual fights with robots in the future will be like either. Professional fights are held between people of similar sizes and skill levels, and are governed by many rules, including allowances for rest breaks. As such, it often takes long time for one fighter to prevail over the other, and the use of fighting techniques. A real-world fight between something like a Terminator and a human would feature a huge disparity in strength, fighting skill, and endurance that favored the machine, and would have no rules, allowing the machine to use brutal moves meant to cause maximum pain and incapacitation. It would look much more like a single suckerpunch knockout street fight than a professional boxing match.

Actual hand-to-hand combat with killer robots will almost always result in the human losing in seconds. Owing to their superior strength, pain insensitivity, and metal bodies that couldn’t be hurt by human punches or kicks, killer robots will not need to use complex fighting tactics (e.g. – dodges, blocks, multiple strikes) to win–one or two simple, swift moves like punching the human in the forehead hard enough to crack their skill, or jamming a rigid metal finger deep into the human’s eye, would be enough.

Terminator Salvation only depicts this accurately once, when a Terminator deliberately punches one of the characters on the left side of his chest, knowing the force of the impact will stop his heart. In the first Terminator movie, there was also a scene where the machine kills a man with a single punch that is so hard it penetrates his rib cage (the Terminator then pulls his hand out, still grasping the man’s now-severed heart), and in Terminator 2, the shapeshifting, evil Terminator kills a prison guard by shoving its sharpened finger through his eye and into his brain.

Some machines will be aquatic. A common type of combat robot in the movie is an eel-like machine with large, sharp jaws that it uses to bite humans to death. They live in bodies of water and surface to attack any humans who go in or near them. Though at first glance, this might seem unrealistic since electronics and water don’t mix, it actually isn’t. Machines can be waterproofed, and they can cool themselves off much better when immersed water than when surrounded by the air. (I explored this in my blog post “Is the ocean the ideal place for AI to live?”)

“Hydrobots” are eel-like killing machines that live in bodies of water.

One of the few things I liked about Terminator Salvation was its depiction of the diversity of machine types. Just as there are countless animal and plant species in the world, each suited in form for a unique function and ecological niches, there will be countless machine “species” with different types of bodies. The Matrix films also did a good job depicting this during some of the scenes set in the machine-ruled parts of the “Real World.”

A scene from The Matrix Revolutions, where Neo visits the enemy capitol city, and multitudes of machines of varying kinds are seen. They mostly resemble different species of invertebrates.

We should expect machines to someday live on nearly every part of the planet, such as oceans (both on the surface and below it), mountaintops, deserts, and perhaps even underground. Intelligent, technological evolution will shape their bodies in the same ways that unguided, natural evolution has shaped those of the planet’s countless animal species, and there could be certain environments where machines find it optimal to have eel-like bodies. Terminator Salvation’s hydrobots were thus realistic depictions of machines that could exist someday, though it won’t be until the next century before aquatic robots become as common in bodies of water as they were in the film.

Small robots will be used for mass surveillance. Another type of machine in the film is the “aerostat”–a flying surveillance drone about the same size and shape as a car tire. A single, swiveling rotor where its hubcap should be keeps it aloft. The aerostats have cameras, microphones, and possibly other sensors to monitor their surroundings. They seek out activity that might indicate a human presence, and transmit their findings to Skynet, which can deploy machines specialized for combat or human abduction to the locations. Aerostats seem to be unarmed.

An “aerostat” in flight

Flying surveillance drones about the size of aerostats have existed for years, so in that respect, the film is not showing anything new. What’s futuristic about the depiction is 1) the aerostats are autonomous, meaning they can decide to fly off to investigate potential signs of humans and report their findings after, and 2) they are so numerous that the humans live in fear of them and must take constant measures to hide from them. Something as innocuous as turning a radio on high volume for a few seconds will attract an aerostat’s attention.

Though they are unarmed and certainly not as intimidating as the other machines in the movie, the aerostats are surely no less important to Skynet’s war effort against the human race. Knowing where the enemy is, and in what numbers, is invaluable to any military commander. The aerostat surveillance network coupled with Skynet’s ability to rapidly deploy combat machines wherever humans were detected also put the latter at a major strategic disadvantage by hobbling them from aggregating into large groups.

Flying drones that look similar to real birds already exist. In a few decades, these and other drones that look like other animals will be much more real-looking and advanced.

Autonomous surveillance drones no bigger than aerostats will exist in large numbers by the middle of this century, and will have different forms. Some will be airborne while others will be terrestrial or aquatic. Many of them will be able to function by themselves in the field for days on end, and they will be able to hide from enemies through camouflage (perhaps by resembling animals) and evasion. The drones will give generals much better surveillance of battle spaces and even of the enemy’s home territory, and a soldier near the front lines who merely speaks loudly in his foxhole will risk being hit by a mortar in less than a minute, with his coordinates radioed in by a tiny surveillance drone camouflaged against a nearby tree trunk.

Criminals AND law enforcement will find uses for the drones, and, sadly, so will dictators. Mass drone surveillance networks will give the latter heightened abilities to monitor their citizens and punish disloyalty. It sounds crazy, but someday, you’ll look at a bird perched on a branch in your backyard and wonder if it’s a robot sent to spy on you.

People will be able to transplant their brains into robot bodies. SPOILER ALERT–one of the main characters is a man whose brain was transplanted into a robot body while he was in cryostasis. Because the body looks human on the outside and his memories of the surgery and the events leading up to it were wiped, he doesn’t realize what his true nature is. He only figures it out midway through the film, when he sustains injuries that blow away his fake skin to reveal the shiny metal endoskeleton underneath. He is as strong and as durable as a Terminator and can interface his mind with Skynet’s thanks to a computer chip implanted in his brain.

Transplanting a human brain into a robot body is theoretically possible, it would bring many advantages, and it will be done in the distant future. As the film character shows, robot bodies are stronger and more robust than natural flesh and bone bodies, and hence protect people from normally fatal injuries. This will get more important in the distant future because after we find cures for all major diseases and for the aging process, injuries caused by accidents, homicides and suicides will be the only ways to die. As such, transplanting your brain into a heavily armored robot body will be the next logical step towards immortality. Even better might be transplanting your brain into a heavily armored jar, locked in a thick-walled room, with your brain interacting with the world through remote-controlled robot bodies that would feel like the real thing to you.

When I think about a future where people can plug their brains in and out of different bodies, sooner or later I always visualize either “Krang” from “Teenage Mutant Ninja Turtles,” or “Mr. Potato Head.”

The ability to pick any body of your choice (e.g. – supermodel, bodybuilder, giant spider, dinosaur) will have profound implications for human self-identity, culture, and society, and will be liberating in ways we can’t imagine. Conceptually, bringing this about is a simple matter of connecting all the sensory neurons attached to your brain to microscopic “wires” that then connect to a computer, but the specifics of the required engineering will be very complicated. Additionally, your brain would need a life support system that provided it with nutrients and oxygen, extracted waste, kept it at the right temperature, and protected it from germs. The whole unit might be the size of a basketball, with the brain and the critical machinery on the inside. The exterior of the unit might have a few ports for plugging in data cables and plugging in hoses that delivered water, nutrients and blood, and drained waste. A person could switch bodies by pulling his brain unit out of his body and placing it into the standard-sized brain unit slot in a new body.

While this scenario is possible in theory, it will require major advances in many areas of science and technology to bring about, including nanotechnology, synthetic organs, prosthetics, and brain-computer interfaces. I don’t expect it to be reality until well into the 22nd century. By the same time, technology will also let us alter our memories and minds and to share thoughts with each other, and humans with all of the available enhancements will look at the humans of 2021 the same way you might look at a person with severe physical and mental disabilities today. The notion of being trapped in a single body that you didn’t even choose and have minimal ability to change will sound alien and stultifying.

Links:

  1. The T-600 Terminators used real weapons called “miniguns.”
    https://en.wikipedia.org/wiki/M134_Minigun
  2. The Mark I Fire Control Computer was the first machine the U.S. Navy used to aim the big guns of its warships. As technology has improved, smaller, cheaper, and better Fire Control Computers have been installed in other weapon systems, like tank cannons. Human-sized machines with these devices are a logical future phase in the progression of the technology.
    https://en.wikipedia.org/wiki/Mark_I_Fire_Control_Computer
  3. The video shows that a no-frills .22 LR rifle can consistently hit torso-sized targets at the remarkable distance of 500 yards if aimed perfectly. Machines will be able to aim perfectly, meaning they will be able to use regular guns much more effectively than humans, lessening the need for fully automatic gunfire.
    https://youtu.be/2dn-bqyMkfs
  4. The man who invented the “Gaia Hypothesis” believes machines will someday take over the planet, and fill all the ecological niches occupied by humans and contemporary animal species.
    https://www.nbcnews.com/mach/science/cyborgs-will-replace-humans-remake-world-james-lovelock-says-ncna1041616

The Kurzweil predictions that don’t matter

Time for…another Ray Kurzweil analysis. It’s funny how I keep swearing to myself I won’t write another one about him, but end up doing so anyway. I’m sorry. For sure, there won’t be anything more about him until next year or later.

In my last blog post, “Will Kurzweil’s 2019 be our 2029?”, I mentioned that several of his predictions for 2019 were wrong, and would probably still be wrong in 2029, but that it didn’t matter since they pertained to inconsequential things. Rather than leave all two of you who read my blog hanging in suspense, I’d like to go over those and explain my thoughts. As before, these predictions are taken from Kurzweil’s 1998 book The Age of Spiritual Machines.

The augmented reality / virtual reality glasses will work by projecting images onto the retinas of the people wearing them.

To be clear, by 2030, standalone AR and VR eyewear will have the levels of capability Kurzweil envisioned for 2019. However, it’s unknowable whether retinal projection will be the dominant technology they will use to show images to the people wearing them. Other technologies like lenses made of transparent LCD screens, or beamed images onto semitransparent lenses, could end up dominant. Whichever gains the most traction by 2030 is irrelevant to the consumer–they will only care about how smooth and convincing the digital images displays in front of them look.

“Keyboards are rare, although they still exist. Most interaction with computing is through gestures using hands, fingers, and facial expressions and through two-way natural-language spoken communication.”

The first sentence was wrong in 2019 and still will be in 2029. As old-fashioned as they may be, keyboards have many advantages over other modes of interacting with computers:

  • Keyboards are physically large and have big buttons, meaning you’re less likely to push the wrong one than you are on a tiny smartphone keyboard.
  • They have many keys corresponding not only to letters and numbers, but to functions, meaning you can easily use a basic keyboard to input a vast range of text and commands into a computer. Imagine how inefficient it would be to input a long URL into a browser toolbar or to write computer code if you had to open all kinds of side menus on your input device to find and select every written symbol, including colons, semicolons, and dollar symbols. Worse, imagine doing that using “hand gestures” and “facial expressions.”
  • Keyboards are also very ergonomic to use and require nothing more than tiny finger movements and flexions of the wrists. By contrast, inputting characters and commands into your computer through some combination of body movements, gestures and facial expressions that it would see would take you much more time and physical energy (compare the amount of energy it takes you to push the “A” button on your keyboard with how much it takes to raise both of your arms up and link your hands over your head with your elbows bent to turn your body into something resembling an “A” shape). And you’d have to go to extra trouble to make sure the device’s camera had a full view of your body and that you were properly lit. This is why something like the gestural interface Tom Cruise used in Minority Report will never become common.

Furthermore, two-way voice communication with computers has its place, but won’t replace keyboards. First, talking with machines sacrifices your privacy and annoys the people within earshot of you. Imagine a world where keyboards are banned and people must issue voice commands to their computers when searching for pornography, and where workers in open-concept offices have to dictate all their emails. Second, verbal communication works poorly in noisy environments since you and your machine have problems understanding each other. It’s simply not a substitute for using keyboards.

Even verbal communication plus gestures, facial expressions, and anything else won’t be enough to render keyboards obsolete. If you want to get any kind of serious work done, you need one.

This will still hold true in 2029, and keyboards will not be “rare” then, or even in 2079. Kurzweil will still be wrong. But so what? The keyboard won’t be “blocking” any other technology, and given its advantages over other modes of data and command input, its continued use is unavoidable and necessary.

Let me conclude this section by saying I can only imagine keyboards becoming obsolete in exotic future scenarios. For example, in a space ship crewed entirely by robots, keyboards, mice, and even display screens might be absent since the robots and the ship would be able to directly communicate through electronic signals. If the captain wanted to turn left, it would think the command, and the ship’s sensors would receive it and respond. And in his mind’s eye, the captain would see live footage from external ship cameras.

“Cables have largely disappeared.”

As I wrote in the analysis, it will still be common for control devices and peripheral devices to have data cables in 2029 due to better information security and slightly lower costs. Moreover, in many cases there will be no functional disadvantage to having corded devices, as they never need to leave the vicinity of whatever they are connected to. Consider, if you have a PC at your work desk, why would you ever need to move your keyboard to anyplace other than the desk’s surface? To use your computer, you need to be close to it and the monitor, which means the keyboard has to stay close to them as well. In such a case, a keyboard with a standard, 5 foot long cord would serve you just as well as a wireless keyboard that could connect to your PC from a mile away.

“Of the total computing capacity of the human species (that is, all human brains), combined with the computing technology the species has created, more than 10 percent is nonhuman.”

This was badly wrong in 2019, and in 2029, the “nonhuman” portion of all computation on Earth will probably be no higher than 1%, so it will still be wrong. But so what? Comparisons of how much raw thinking humans and machines do are misleading since they are “apples to oranges,” and they provide almost no useful insights into the overall state of computer technology or automation.

When it comes to computation, quantity does not equal quality. Consider this example: I estimated that, in 2019, all the world’s computing devices combined did a total of 3.5794 x 1021 flops of computation. Now, if someone invented an AGI that was running on a supercomputer that was, say, ten times as powerful as a human brain, the AGI would be capable of 200 petaflops, or 2.0 x 1017 flops. Looking at the raw figures for global computation, it would seem like the addition of that AI changed nothing: the one supercomputer it was running on wouldn’t even make the global computation count of 3.5794 x 1021 flops increase by one significant digit! However, anyone who has done the slightest thinking about AI’s consequences knows that one machine would be revolutionary, able to divide its attention in many directions at once, and would have inaugurated a new era of much faster economic, scientific, and technological growth that would have been felt by people across the world.

“Rotating memories and other electromechanical computing devices have been fully replaced with electronic devices.”

Rotating computer memories–also called “hard disk drives” (HDD)–were still common in 2019, and will still be in 2029, though less so. This is because HDDs have important advantages over their main competitor, solid-state drives (SSDs), often called “flash drives,” and those advantages will not disappear over this decade.

HDDs are cheaper on a per-bit basis and are less likely to suffer data corruption or data loss. SSDs, on the other hand, are more physically robust since they lack moving parts, and allow much faster access to the data stored in them since they don’t contain disks that have to “spin up.” Given the tradeoffs, in 2029, HDDs will still be widely used in data centers and electronic archive facilities, where they will store important data which needs to be preserved for long periods, but which isn’t so crucial that users need instantaneous access to it. Small consumer electronic devices, including smartphones, smart watches, and other wearables, will continue to exclusively have SSD memory, and finding newly manufactured laptops with anything but SSDs might be impossible. Only a small fraction of desktop computers will have HDDs by then.

So rotating memories will still be around in 2029, meaning the prediction will still be wrong since it contains the absolute term “fully replaced.” But again, so what? All of the data that average people need to see on a day-to-day basis will be stored on SSDs, ensuring they will have instantaneous access to it. The cost of HDD and SSD memory will have continued its long-running, exponential improvement, making both trivially cheap by 2029 (it was already so cheap in 2019 that even poor people could buy enough to meet all their reasonable personal needs). The HDDs that still exist will be out of sight, either in server farms or in big, immobile boxes that are on or under peoples’ work desks. The failure of the prediction will have no noticeable impact, and if you could teleport to a parallel universe where HDDs didn’t exist anymore, nothing about day-to-day life would seem more futuristic.

“A new computer-controlled optical-imaging technology using quantum-based diffraction devices has replaced most lenses with tiny devices that can detect light waves from any angle. These pinhead-sized cameras are everywhere.”

The cameras that make use of quantum effects and reflected light never got good enough to exit the lab, and it’s an open question whether they will be commercialized by 2029. I doubt it, but don’t see why it should matter. Billions of cameras–most of them tiny enough to fit on smartphones–already are practically everywhere and will be even more ubiquitous in 2029. It’s not relevant whether they make use of exotic principles to capture video and still images or whether they use through conventional methods involving the capture of visible light. The important aspects of the prediction–that cameras will be very small and all over the place–was right in 2019 and will be even more right in 2029.

“People read documents either on the hand-held displays or, more commonly, from text that is projected into the ever present virtual environment using the ubiquitous direct-eye displays. Paper books and documents are rarely used or accessed.”

This prediction was technologically possible in 2019, but didn’t come to pass because many people showed a (perhaps unpredictable) preference for paper books and documents. It turns out there’s something appealing about the tactile experience of leafing through books and magazines and being able to carry them around that PDFs and tablet computers can’t duplicate. Personal computing devices had to become widely available before we could realize old fashioned books and sheets of paper had some advantages.

Come 2029, paper books, magazines, journals, newspapers, memos, and letters will still be commonly encountered in everyday life, so the prediction will still be wrong. Fortunately, the persistence of paper isn’t a significant stumbling block in any way since all important paper documents from the pre-computer era have been scanned and are available over the internet for free or at low cost, and all important new written documents originate in electronic format.

For what it’s worth, I’ve predicted that, in the 2030s, books and computer tablets will merge into a single type of device that could be thought of as a “digital book.” It will be a book with several hundred pages made of thin, flexible digital displays (perhaps using ultra-energy efficient e-ink) instead of paper. At the tap of a button, the text on all of the pages will instantly change to display whichever book the user wanted to read at that moment. They could also be used as notebooks in which the user could hand write or draw things with a stylus, which would be saved as image or text files. The devices will fuse the tactile appeal of old-fashioned books with the content flexibility of tablet computers.

“Three-dimensional holography displays have also emerged. In either case, users feel as if they are physically near the other person. The resolution equals or exceeds optimal human visual acuity. Thus a person can be fooled as to whether or not another person is physically present or is being projected through electronic communication.”

3D volumetric displays didn’t advance nearly as fast as Kuzweil predicted, so this was wrong in 2019, and the technology doesn’t look poised for a breakthrough, so it will still be wrong in 2029. However, it doesn’t matter since VR goggles and probably AR glasses as well will let people have the same holographic experiences. By 2029, you will be able to put on eyewear that displays lifelike, moving images of other people, giving the false impression they are around you. Among other things, this technology will be used for video calls.

“The all-enveloping tactile environment is now widely available and fully convincing. Its resolution equals or exceeds that of human touch and can simulate (and stimulate) all the facets of the tactile sense, including the senses of pressure, temperature, textures, and moistness…the ‘total touch’ haptic environment requires entering a virtual reality booth.”

The haptic/kinetic/touch aspect of virtual reality is very underdeveloped compared to its audio and visual aspects, and will still lag far behind in 2029, but little will be lost thanks to this. After all, if you’re playing a VR game, do you want to be able to feel bullets hitting you, or to feel the extreme temperatures of whatever exotic virtual environment you’re in? Even if we had skintight catsuits that could replicate physical sensations accurately, would we want to wear them? Slipping on a VR headset that covers your eyes and ears is fast and easy–and will become even more so as the devices miniaturize thanks to better technology–but taking off all your clothes to put on a VR catsuit is much more trouble.

A VR headset is made of smooth metal and high-impact plastic, making it easy to clean with a damp a rag. By contrast, a catsuit made of stretchy material and studded with hard servos, sensors and other little machines would soak up sweat, dirt and odors, and couldn’t be thrown in the washing machine or dryer like a regular garment since its parts would get damaged if banged around inside. It’s impractical.

“These technologies are popular for medical examinations, as well as sensual and sexual interactions…”

I doubt that VR body suits and VR “booths” will be able to satisfactorily replicate anything but a narrow range of sex acts. Given the extreme importance of tactile stimulation, the setup would have to include a more expensive catsuit. There would also need to be devices for the genitals, adding more costs, and possibly other contraptions to apply various types of physical force (thrust, pull, resistance, etc.) to the user. Cleanup would be even more of a hassle. [Shakes head]

The fundamental limits to this technology are such that I don’t think it will ever become “popular” since VR sex will fall so far short of the real thing. That said, I believe another technology, androids, will be able to someday “do it” as well as humans. Once they can, androids will become some of the most popular consumer devices of all time, with major repercussions for dating, marriage, gender relations, and laws relating to sex and prostitution. They would let any person, regardless of social status, looks, or personality, to have unlimited amounts of “sex,” which is unheard of in human history. Just don’t expect it until near the end of this century!

“The vast majority of transactions include a simulated person, featuring a realistic animated personality and two-way voice communication with high-quality natural-language understanding.”

As with replacing all books with PDFs on computer displays, there was no technological barrier to this in 2019, but it didn’t happen because most transactions remained face-to-face, and because people preferred online transactions involving simple button-clicks rather than drawn-out conversations with fake human salesmen. The consumer preferences were not clear when the prediction was made in 1998.

By 2029, the prediction will still be wrong, though it won’t matter, since buying things by simply clicking on buttons and typing a few characters is faster and much less aggravating than doing the same transactions through a “simulated person.” Anyone who has dealt with a robot operator on the phone that laboriously enunciates menu options and obtusely talks over you when you are responding will agree. It would be a step backwards if that technology became more widespread by 2029.

“Automated driving systems have been found to be highly reliable and have now been installed in nearly all roads. While humans are still allowed to drive on local roads (although not on highways), the automated driving systems are always engaged and are ready to take control when necessary to prevent accidents.”

Sensors and transmitters that could guide cars were never installed along roadways, but it didn’t turn out to be a problem since we found that cars could use GPS and their own onboard sensors to navigate just as well. So the prediction was wrong, and the expensive roadside networks will still not exist in 2029, but it won’t matter.

The second part of the prediction will be half right by 2029, and it’s failure to be 100% right will be consequential. By then, autonomous cars will be statistically safer than the average human driver and will be in the “human range” of “efficiency,” albeit towards the bottom of the range: they will still be overly cautious, slowing down and even stopping whenever they detect slightly dangerous conditions (e.g. – erratic human driver nearby, pedestrian who looks like they might be about to cross the road illegally, heavy rain, dead leaves blowing across the road surface). In short, they’ll drive like old ladies, which will be annoying at times.

While the technology will be cheaper and more widely accepted, it will still be a luxury feature in 2029 that only a minority of cars in rich countries have. At best, a token number of public roads worldwide will ban human-driven vehicles. Enormous numbers of lives will be lost in accidents, and billions of dollars wasted in traffic jams each year thanks to autonomous car technology not advancing as fast as Kurzweil predicted.

“The type of artistic and entertainment product in greatest demand (as measured by revenue generated) continues to be virtual-experience software, which ranges from simulations of ‘real’ experiences to abstract environments with little or no corollary in the physical world.”

In 2019, the sports industry had the highest revenues in the entertainment sector, totaling $480 – $620 billion. That year, the VR gaming industry generated a paltry $1.2 billion in revenue, so the prediction was badly wrong for 2019. And even if the latter grows twentyfold over this decade, which I think is plausible, it won’t come close to challenging the dominance of sports.

That said, looking at revenues is kind of arbitrary. The spirit of the prediction, which is that VR gaming will become a very popular and common means of entertainment, will be right by 2029 in rich countries, and it will only get more widespread with time.

“Computerized health monitors built into watches, jewelry, and clothing which diagnose both acute and chronic health conditions are widely used. In addition to diagnosis, these monitors provide a range of remedial recommendations and interventions.”

The devices are already built into some smartwatches, and will be “widely used” by any reasonable metric by 2029. I don’t think they will be shrunk to the sizes of jewelry like rings and earrings, but that won’t have any real consequences since the watches will be available. No one in 2029 will say “I’m really concerned about my heart problem and want to buy a wearable monitoring device, but my health is not so important that I would want to trouble myself with a watch. However, I’d be OK with a ring.”

Health monitoring devices won’t be built into articles of clothing for the same reasons that other types of computers won’t be built into them: 1) laundering and drying the clothes would be a hassle since water, heat and being banged around would damage their electronic parts and 2) you’d have to remember to always wear your one shirt with the heartbeat monitor sewn into it, regardless of how appropriate it was for the occasion and weather, or how dirty it was from wearing it day after day. It makes much more sense to consolidate all your computing needs into one or two devices that are fully portable and easy to keep clean, like a smartphone and smartwatch, which is why we’ve done that.

Links:

  1. Rotating computer memories (HDDs) are cheaper and more reliable than solid-state memories (SSDs). Those advantages are unlikely to disappear, meaning HDDs will still be around in 2029.
    https://www.computerweekly.com/feature/Spinning-disk-hard-drives-Good-value-for-many-use-cases
  2. Even old-fashioned computer tapes will still be around in 2029, as they’re even better-suited for long-term data storage (called “cold storage”).
    https://www.economist.com/science-and-technology/2020/12/15/magnetic-tape-has-a-surprisingly-promising-future

How Ray Kurzweil’s 2019 predictions are faring

In 1999, Ray Kurzweil, one of the world’s greatest futurists, published a book called The Age of Spiritual Machines. In it, he made the case that artificial intelligence, nanomachines, virtual reality, brain implants, and other technologies would greatly improve during the 21st century, radically altering the world and the human experience. In the final four chapters, titled “2009,” “2019,” “2029,” and “2099,” he made detailed predictions about what the state of key technologies would be in each of those years, and how they would impact everyday life, politics and culture.

Ray Kurzweil receiving a technology award from President Clinton in 1999.

Towards the end of 2009, a number of news columnists, bloggers and even Kurzweil himself weighed in on how accurate his predictions from the eponymous chapter turned out. By contrast, no such analysis was done over the past year regarding his 2019 predictions. As such, I’m taking it upon myself to do it.

I started analyzing the accuracy of Kurzweil’s predictions in late 2019 and wanted to publish my full results before the end of that year. However, the task required me to do much more research that I had expected, so I missed that deadline. Really digging into the text of The Age of Spiritual Machines and parsing each sentence made it clear that the number and complexity of the 2019 predictions were greater than a casual reading would suggest. Once I realized how big of a task it would be, I became kind of demoralized and switched to working on easier projects for this blog.

With the end of 2020 on the horizon, I think time is running out to finish this, and I’ve decided to tackle the problem. Except where noted, I will only use sources published before January 1, 2020 to support my conclusions.

“Computers are now largely invisible. They are embedded everywhere–in walls, tables, chairs, desks, clothing, jewelry, and bodies.”

RIGHT

A computer is a device that stores and processes data, and executes its programming. Any machine that meets those criteria counts as a computer, regardless of how fast or how powerful it is (also, it doesn’t even need to run on electricity). This means something as simple as a pocket calculator, programmable thermostat, or a Casio digital watch counts as a computer. These kinds of items were ubiquitous in developed countries in 1998 when Ray Kurzweil wrote the book, so his “futuristic” prediction for 2019 could have just as easily applied to the reality of 1998. This is an excellent example of Kurzweil making a prediction that leaves a certain impression on the casual reader (“Kurzweil says computers will be inside EVERY object in 2019!”) that is unsupported by a careful reading of the prediction.

“People routinely use three-dimensional displays built into their glasses or contact lenses. These ‘direct eye’ displays create highly realistic, virtual visual environments overlaying the ‘real’ environment.”

MOSTLY WRONG

The first attempt to introduce augmented reality glasses in the form of Google Glass was probably the most notorious consumer tech failure of the 2010s. To be fair, I think this was because the technology wasn’t ready yet (e.g. – small visual display, low-res images, short battery life, high price), and not because the device concept is fundamentally unsound. The technological hangups that killed Google Glass will of course vanish in the future thanks to factors like Moore’s Law. Newer AR glasses, like Microsoft’s Hololens, are already superior to Google Glass, and given the pace of improvement, I think AR glasses will be ready for another shot at widespread commercialization by the end of the 2020s, but they will not replace smartphones for a variety of reasons (such as the unwillingness of many people to wear glasses, widespread discomfort with the possibility that anyone wearing AR glasses might be filming the people around them, and durability and battery life advantages of smartphones).

Kurzweil’s prediction that contact lenses would have augmented reality capabilities completely failed. A handful of prototypes were made, but never left the lab, and there’s no indication that any tech company is on the cusp of commercializing them. I doubt it will happen until the 2030s.

Pokemon Go is an augmented reality video game, and has been downloaded over 1 billion times.

However, people DO routinely access augmented reality, but through their smartphones and not through eyewear. Pokemon Go was a worldwide hit among video gamers in 2016, and is an augmented reality game where the player uses his smartphone screen to see virtual monsters overlaid across live footage of the real world. Apps that let people change their appearances during live video calls (often called “face filters”), such as by making themselves appear to have cartoon rabbit ears, are also very popular among young people.

So while Kurzweil got augmented reality technology’s form factor wrong, and overestimated how quickly AR eyewear would improve, he was right that ordinary people would routinely use augmented reality.

The augmented reality glasses will also let you experience virtual reality.

WRONG

Augmented reality glasses and virtual reality goggles remain two separate device categories. I think we will someday see eyewear that merges both functions, but it will take decades to invent glasses that are thin and light enough to be worn all day, untethered, but that also have enough processing power and battery life to provide a respectable virtual reality experience. The best we can hope for by the end of the 2020s will be augmented reality glasses that are good enough to achieve ~10% of the market penetration of smartphones, and virtual reality goggles that have shrunk to the size of ski goggles.

Of note is that Kurzweil’s general sentiment that VR would be widespread by 2019 is close to being right. VR gaming made a resurgence in the 2010s thanks to better technology, and looks poised to go mainstream in the 2020s.

The augmented reality / virtual reality glasses will work by projecting images onto the retinas of the people wearing them.

PARTLY RIGHT

The most popular AR glasses of the 2010s, Google Glass, worked by projecting images onto their wearer’s retinas. The more advanced AR glass models that existed at the end of the decade used a mix of methods to display images, none of which has established dominance.

“Magic Leap One”

The “Magic Leap One” AR glasses use the retinal projection technology Kurzweil favored. They are superior to Google Glass since images are displayed to both eyes (Glass only had a projector for the right eye), in higher resolution, and covering a larger fraction of the wearer’s field of view (FOV). Magic Leap One also has advanced sensors that let it map its physical surroundings and movements of its wearer, letting it display images of virtual objects that seem to stay fixed at specific points in space (Kurzweil called this feature “Virtual-reality overlay display”).

Microsoft “Hololens”

Microsoft’s “Hololens” uses a different technology to produce images: the lenses are in fact transparent LCD screens. They display images just like a TV screen or computer monitor would. However, unlike those devices, the Hololens’ LCDs are clear, allowing the wearer to also see the real world in front of them.

The “Vuzix Blade”

The “Vuzix Blade” AR glasses have a small projector that beams images onto the lens in front of the viewer’s right eye. Nothing is directly beamed onto his retina.

It must emphasized again that, at the end of 2019, none of these or any other AR glasses were in widespread or common use, even in rich countries. They were confined to small numbers of hobbyists, technophiles, and software developers. A Magic Leap One headset cost $2,300 – $3,300 depending on options, and a Hololens was $3,000.

A man wearing HTC Vive virtual reality goggles, with hand controllers.

And as stated, AR glasses and VR goggles remained two different categories of consumer devices in 2019, with very little crossover in capabilities and uses. The top-selling VR goggles were the Oculus Rift and the HTC Vive. Both devices use tiny OLED screens positioned a few inches in front of the wearer’s eyes to display images, and as a result, are much bulkier than any of the aforementioned AR glasses. In 2019, a new Oculus Rift system cost $400 – $500, and a new HTC Vive was $500 – $800.

“[There] are auditory ‘lenses,’ which place high resolution-sounds in precise locations in a three-dimensional environment. These can be built into eyeglasses, worn as body jewelry, or implanted in the ear canal.”

MOSTLY RIGHT

Humans have the natural ability to tell where sounds are coming from in 3D space because we have “binaural hearing”: our brains can calculate the spatial origin of the sound by analyzing the time delay between that sound reaching each of our ears, as well as the difference in volume. For example, if someone standing to your left is speaking, then the sounds of their words will reach your left ear a split second sooner than they reach your right ear, and their voice will also sound louder in your left ear.

By carefully controlling the timing and loudness of sounds that a person hears through their headphones or through a single speaker in front of them, we can take advantage of the binaural hearing process to trick people into thinking that a recording of a voice or some other sound is coming from a certain direction even though nothing is there. Devices that do this are said to be capable of “binaural audio” or “3D audio.” Kurzweil’s invented term “audio lenses” means the same thing.

The Bose Frames sunglasses have small sound speakers built into them, close to the wearer’s ears.

Yes, there are eyeglasses with built-in speakers that play binaural audio. The Bose Frames “smart sunglasses” is the best example. Even though the devices are not common, they are commercially available, priced low enough for most people to afford them ($200), and have gotten good user reviews. Kurzweil gets this one right, and not by an eyerolling technicality as would be the case if only a handful of million-dollar prototype devices existed in a tech lab and barely worked.

The Apple Airpod wireless earbuds are, like most Apple products, status objects like jewelry.

Wireless earbuds are much more popular, and upper-end devices like the SoundPEATS Truengine 2 have impressive binaural audio capabilities. It’s a stretch, but you could argue that branding, and sleek, aesthetically pleasing design qualifies some higher-end wireless earbud models as “jewelry.”

Sound bars have also improved and have respectable binaural surround sound capabilities, though they’re still inferior to traditional TV entertainment system setups where the sound speakers are placed at different points in the room. Sound bars are examples of single-point devices that can trick people into thinking sounds are originating from different points in space, and in spirit, I think they are a type of technology Kurzweil would cite as proof that his prediction was right.

The last part of Kurzweil’s prediction is wrong, since audio implants into the inner ears are still found only in people with hearing problems, which is the same as it was in 1998. More generally, people have shown themselves more reluctant to surgically implant technology in their bodies than Kurzweil seems to have predicted, but they’re happy to externally wear it or to carry it in a pocket.

“Keyboards are rare, although they still exist. Most interaction with computing is through gestures using hands, fingers, and facial expressions and through two-way natural-language spoken communication. “

MOSTLY WRONG

Rumors of the keyboard’s demise have been greatly exaggerated. Consider that, in 2018, people across the world bought 259 million new desktop computers, laptops, and “ultramobile” devices (higher-end tablets that have large, detachable keyboards [the Microsoft Surface dominates this category]). These machines are meant to be accessed with traditional keyboard and mouse inputs.

Gartner’s estimates of global personal computer (PC) sales in 2018. The numbers for 2019 will be nearly the same.

The research I’ve done suggests that the typical desktop, laptop, and ultramobile computer has a lifespan of four years. If we accept this, and also assume that the worldwide computer sales figures for 2015, 2016, and 2017 were the same as 2018’s, then it means there are 1.036 billion fully functional desktops, laptops, and ultramobile computers on the planet (about one for every seven people). By extension, that means there are at least 1.036 billion keyboards. No one could reasonably say that Kurzweil’s prediction that keyboards would be “rare” by 2019 is correct.

The second sentence in Kurzweil’s prediction is harder to analyze since the meaning of “interaction with computing” is vague and hence subjective. As I wrote before, a Casio digital watch counts as a computer, so if it’s nighttime and I press one of its buttons to illuminate the display so I can see the time, does that count as an “interaction with computing”? Maybe.

If I swipe my thumb across my smartphone’s screen to unlock the device, does that count as an “interaction with computing” accomplished via a finger gesture? It could be argued so. If I then use my index finger to touch the Facebook icon on my smartphone screen to open the app, and then use a flicking motion of my thumb to scroll down over my News Feed, does that count as two discrete operations in which I used finger gestures to interact with computing?

You see where this is going…

Being able to set the bar that low makes it possible that this part of Kurzweil’s prediction is right, as unsatisfying as that conclusion may be.

Virtual reality game setups, like those offered by Oculus, commonly make use of hand controllers like these, which monitor the locations and movements of the player’s hands and translate them into in-game commands. This is an example of gestural control. Several million people now have advanced VR game systems like this.

Virtual reality gaming makes use of hand-held and hand-worn controllers that monitor the player’s hand positions and finger movements so he can grasp and use objects in the virtual environment, like weapons and steering wheels. Such actions count as interactions with computing. The technology will only get more refined, and I can see them replacing older types of handheld game controllers.

Hand gestures, along with speech, are also the natural means to interface with augmented reality glasses since the devices have tiny surfaces available for physical contact, meaning you can’t fit a keyboard on a sunglass frame. Future AR glasses will have front-facing cameras that watch the wearer’s hands and fingers, allowing them to interact with virtual objects like buttons and computer menus floating in midair, and to issue direct commands to the glasses through specific hand motions. Thus, as AR glasses get more popular in the 2020s, so will the prevalence of this mode of interface with computers.

Users interface with the “Gen 2” Amazon Echo through two-way spoken communication. The device is popular and highly reviewed and only costs $100, putting it within reach of hundreds of millions of households.

“Two-way natural-language spoken communication” is now a common and reliable means of interacting with computers, as anyone with a smart speaker like an Amazon Echo can attest. In fact, virtual assistants like Alexa, Siri, and Cortana can be accessed via any modern smartphone, putting this within reach of billions of people.

The last part of Kurzweil’s prediction, that people would be using “facial expressions” to communicate with their personal devices, is wrong. For what it’s worth, machines are gaining the ability to read human emotions through our facial expressions (including “microexpressions”) and speech. This area of research, called “affective computing,” is still stuck in the lab, but it will doubtless improve and find future commercial applications. Someday, you will be able to convey important information to machines through your facial expressions, tone of voice, and word choice just as you do to other humans now, enlarging your mode of interacting with “computing” to encompass those domains.

“Significant attention is paid to the personality of computer-based personal assistants, with many choices available. Users can model the personality of their intelligent assistants on actual persons, including themselves…”

WRONG

The most widely used computer-based personal assistants–Alexa, Siri, and Cortana–don’t have “personalities” or simulated emotions. They always speak in neutral or slightly upbeat tones. Users can customize some aspects of their speech and responses (i.e. – talking speed, gender, regional accent, language), and Alexa has limited “skill personalization” abilities that allow it to tailor some of its responses to the known preferences of the user interacting with it, but this is too primitive to count as a “personality adjustment” feature.

My research didn’t find any commercially available AI personal assistant that has something resembling a “human personality,” or that is capable of changing that personality. However, given current trends in AI research and natural language understanding, and growing consumer pressure on Silicon Valley’s to make products that better cater to the needs of nonwhite people, it is likely this will change by the end of this decade.

“Typically, people do not own just one specific ‘personal computer’…”

RIGHT

A 2019 Pew survey showed that 75% of American adults owned at least one desktop or laptop PC. Additionally, 81% of them owned a smartphone and 52% had tablets, and both types of devices have all the key attributes of personal computers (advanced data storing and processing capabilities, audiovisual outputs, accepts user inputs and commands).

The data from that and other late-2010s surveys strongly suggest that most of the Americans who don’t own personal computers are people over age 65, and that the 25% of Americans who don’t own traditional PCs are very likely to be part of the 19% that also lack smartphones, and also part of the 48% without tablets. The statistical evidence plus consistent anecdotal observations of mine lead me to conclude that the “typical person” in the U.S. owned at least two personal computers in late 2019, and that it was atypical to own fewer than that.

“Computing and extremely high-bandwidth communication are embedded everywhere.”

MOSTLY RIGHT

This is another prediction whose wording must be carefully parsed. What does it mean for computing and telecommunications to be “embedded” in an object or location? What counts as “extremely high-bandwidth”? Did Kurzweil mean “everywhere” in the literal sense, including the bottom of the Marianas Trench?

First, thinking about my example, it’s clear that “everywhere” was not meant to be taken literally. The term was a shorthand for “at almost all places that people typically visit” or “inside of enough common objects that the average person is almost always near one.”

Second, as discussed in my analysis of Kurzweil’s first 2019 prediction, a machine that is capable of doing “computing” is of course called a “computer,” and they are much more ubiquitous than most people realize. Pocket calculators, programmable thermostats, and even a Casio digital watch count computers. Even 30-year-old cars have computers inside of them. So yes, “computing” is “embedded ‘everywhere’” because computers are inside of many manmade objects we have in our homes and workplaces, and that we encounter in public spaces.

Of course, scoring that part of Kurzweil’s prediction as being correct leaves us feeling hollow since those devices don’t the full range of useful things we associate with “computing.” However, as I noted in the previous prediction, 81% of American adults own smartphones, they keep them in their pockets or near their bodies most of the time, and smartphones have all the capabilities of general-purpose PCs. Smartphones are not “embedded” in our bodies or inside of other objects, but given their ubiquity, they might as well be. Kurzweil was right in spirit.

Third, the Wifi and mobile phone networks we use in 2019 are vastly faster at data transmission than the modems that were in use in 1999, when The Age of Spiritual Machines was published. At that time, the commonest way to access the internet was through a 33.6k dial-up modem, which could upload and download data at a maximum speed of 33,600 bits per second (bps), though upload speeds never got as close to that limit as download speeds. 56k modems had been introduced in 1998, but they were still expensive and less common, as were broadband alternatives like cable TV internet.

In 2019, standard internet service packages in the U.S. typically offered WiFi download speeds of 30,000,000 – 70,000,000 bps (my home WiFi speed is 30-40 Mbps, and I don’t have an expensive service plan). Mean U.S. mobile phone internet speeds were 33,880,000 bps for downloads and 9,750,000 bps for uploads. That’s a 1,000 to 2,000-fold speed increase over 1999, and is all the more remarkable since today’s devices can traffic that much data without having to be physically plugged in to anything, whereas the PCs of 1999 had to be plugged into modems. And thanks to wireless nature of internet data transmissions, “high-bandwidth communication” is available in all but the remotest places in 2019, whereas it was only accessible at fixed-place computer terminals in 1999.

Again, Kurzweil’s use of the term “embedded” is troublesome, since it’s unclear how “high-bandwidth communication” could be embedded in anything. It emanates from and is received by things, and it is accessible in specific places, but it can’t be “embedded.” Given this and the other considerations, I think every part of Kurzweil’s prediction was correct in spirit, but that he was careless with how he worded it, and that it would have been better written as: “Computing and extremely high-bandwidth communication are available and accessible almost everywhere.”

Cables have largely disappeared.”

MOSTLY RIGHT

Assessing the prediction requires us to deduce which kinds of “cables” Kurzweil was talking about. To my knowledge, he has never been an exponent of wireless power transfer and has never forecast that technology becoming dominant, so it’s safe to say his prediction didn’t pertain to electric cables. Indeed, larger computers like desktop PCs and servers still need to be physically plugged into electrical outlets all the time, and smaller computing devices like smartphones and tablets need to be physically plugged in to routinely recharge their batteries.

That leaves internet cables and data/power cables for peripheral devices like keyboards, mice, joysticks, and printers. On the first count, Kurzweil was clearly right. In 1999, WiFi was a new invention that almost no one had access to, and logging into the internet always meant sitting down at a computer that had some type of data plug connecting it to a wall outlet. Cell phones weren’t able to connect to and exchange data with the internet, except maybe for very limited kinds of data transfers, and it was a pain to use the devices for that. Today, most people access the internet wirelessly.

Wireless keyboards and mice are affordable, but still significantly more expensive than their wired counterparts.

On the second count, Kurzweil’s prediction is only partly right. Wireless keyboards and mice are widespread, affordable, and are mature technologies, and even lower-cost printers meant for people to use at home usually come with integrated wireless networking capabilities, allowing people in the house to remotely send document files to the devices to be printed. However, wireless keyboards and mice don’t seem about to displace their wired predecessors, nor would it even be fair to say that the older devices are obsolete. Wired keyboards and mice are cheaper (they are still included in the box whenever you buy a new PC), easier to use since users don’t have to change their batteries, and far less vulnerable to hacking. Also, though they’re “lower tech,” wired keyboards and mice impose no handicaps on users when they are part of a traditional desktop PC setup. Wireless keyboards and mice are only helpful when the user is trying to control a display that is relatively far from them, as would be the case if the person were using their living room television as a computer monitor, or if a group of office workers were viewing content on a large screen in a conference room, and one of them was needed to control it or make complex inputs.

No one has found this subject interesting enough to compile statistics on the percentages of computer users who own wired vs. wireless keyboards and mice, but my own observation is that the older devices are still dominant.

And though average computer printers in 2019 have WiFi capabilities, the small “complexity bar” to setting up and using the WiFi capability makes me suspect that most people are still using a computer that is physically plugged into their printer to control the latter. These data cables could disappear if we wanted them to, but I don’t think they have.

This means that Kurzweil’s prediction that cables for peripheral computer devices would have “largely disappeared” by the end of 2019 was wrong. For what it’s worth, the part that he got right vastly outweighs the part he got wrong: The rise of wireless internet access has revolutionized the world by giving ordinary people access to information, services and communication at all but the remotest places. Unshackling people from computer terminals and letting them access the internet from almost anywhere has been extremely empowering, and has spawned wholly new business models and types of games. On the other hand, the world’s failure to fully or even mostly dispense with wired computer peripheral devices has been almost inconsequential. I’m typing this on a wired keyboard and don’t see any way that a more advanced, wireless keyboard would help me.

“The computational capacity of a $4,000 computing device (in 1999 dollars) is approximately equal to the computational capability of the human brain (20 million billion calculations per second).” [Or 20 petaflops]

WRONG

Graphics cards provide the most calculations per second at the lowest cost of any type of computer processor. The NVIDIA GeForce RTX 2080 Ti Graphics Card is one of the fastest computers available to ordinary people in 2019. In “overclocked” mode, where it is operating as fast as possible, it does 16,487 billion calculations per second (called “flops”).

A GeForce RTX 2080 retails for $1,100 and up, but let’s be a little generous to Kurzweil and assume we’re able to get them for $1,000.

$4,000 in 1999 dollars equals $6,164 in 2019 dollars. That means today, we can buy 6.164 GeForce RTX 2080 graphics cards for the amount of money Kurzweil specified.

6.164 cards x 16,487 billion calculations per second per card = 101,625 billion calculations per second for the whole rig.

This computational cost-performance level is two orders of magnitude worse than Kurzweil predicted.

The SuperMUC-NG supercomputer fills a large room and is as powerful as one human brain.

Additionally, according to Top500.org, a website that keeps a running list of the world’s best supercomputers and their performance levels, the “Leibniz Rechenzentrum SuperMUC-NG” is the ninth fastest computer in the world and the fastest in Germany, and straddles Kurzweil’s line since it runs at 19.4 petaflops or 26.8 petaflops depending on method of measurement (“Rmax” or “Rpeak”). A press release said: “The total cost of the project sums up to 96 Million Euro [about $105 million] for 6 years including electricity, maintenance and personnel.” That’s about four orders of magnitude worse than Kurzweil predicted.

I guess the good news is that at least we finally do have computers that have the same (or slightly more) processing power as a single, average, human brain, even if the computers cost tens of millions of dollars apiece.

“Of the total computing capacity of the human species (that is, all human brains), combined with the computing technology the species has created, more than 10 percent is nonhuman.”

WRONG

Kurzweil explains his calculations in the “Notes” section in the back of the book. He first multiplies the computation performed by one human brain by the estimated number of humans who will be alive in 2019 to get the “total computing capacity of the human species.” Confusingly, his math assumes one human brain does 10 petaflops, whereas in his preceding prediction he estimates it is 20 petaflops. He also assumed 10 billion people would be alive in 2019, but the figure fell mercifully short and was ONLY 7.7 billion by the end of the year.

Plugging in the correct figure, we get (7.7 x 109 humans) x 1016 flops = 7.7 x 1025 flops = the actual total computing capacity of all human brains in 2019.

Determining the total computing capacity of all computers in existence in 2019 can only really be guessed at. Kurzweil estimated that at least 1 billion machines would exist in 2019, and he was right. Gartner estimated that 261 million PCs (which includes desktop PCs, notebook computers [seems to include laptops], and “ultramobile premiums”) were sold globally in 2019. The figures for the preceding three years were 260 million (2018), 263 million (2017), and 270 million (2016). Assuming that a newly purchased personal computer survives for four years before being fatally damaged or thrown out, we can estimate that there were 1.05 billion of the machines in the world at the end of 2019.

However, Kurzweil also assumed that the average computer in 2019 would be as powerful as a human brain, and thus capable of 10 petaflops, but reality fell far short of the mark. As I revealed in my analysis of the preceding prediction, a 10 petaflop computer setup would cost somewhere between $606,543 in GeForce RTX 2080 graphics cards, or $52.5 million for half a Leibniz Rechenzentrum SuperMUC-NG supercomputer. None of the people who own the 1.34 billion personal computers in the world spent anywhere near that much money, and their machines are far less powerful than human brains.

Let’s generously assume that all of the world’s 1.05 billion PCs are higher-end (for 2019) desktop computers that cost $900 – $1,200. Everyone’s machine has an Intel Core i7, 8th Generation processor, which offers speeds of a measly 361.3 gigaflops (3.613 x 1011 flops). A 10 petaflop human brain is 27,678 times faster!

Plugging in the computer figures, we get (1.05 x 109 personal computers) x 3.61311 flops = 3.794 x 1020 = the total computing capacity of all personal computers in 2019. That’s five orders of magnitude short. The reality of 2019 computing definitely fell wide of Kurzweil’s expectations.

What if we add the computing power of all the world’s smartphones to the picture? Approximately 3.2 billion people owned a smartphone in 2019. Let’s assume all the devices are higher-end (for 2019) iPhone XR’s, which everyone bought new for at least $500. The iPhone XR’s have A12 Bionic processors, and my research indicates they are capable of 700 – 1,000 gigaflop maximum speeds. Let’s take the higher-end estimate and do the math.

3.2 billion smartphones x 1012 flops = 3.2 x 1021 = the the total computing capacity of all smartphones in 2019.

Adding things up, pretty much all of the world’s personal computing devices (desktops, laptops, smartphones, netbooks) only produce 3.5794 x 1021 flops of computation. That’s still four orders of magnitude short of what Kurzweil predicted. Even if we assume that my calculations were too conservative, and we add in commercial computers (e.g. – servers, supercomputers), and find that the real amount of artificial computation is ten times higher than I thought, at 3.5794 x 1022 flops, this would still only be equivalent to 1/2000th, or 0.05% of the total computing capacity of all human brains (7.7 x 1025 flops). Thus, Kurzweil’s prediction that it would be 10% by 2019 was very wrong.

“Rotating memories and other electromechanical computing devices have been fully replaced with electronic devices.”

WRONG

For those who don’t know much about computers, the prediction says that rotating disk hard drives will be replaced with solid-state hard drives that don’t rotate. A thumbdrive has a solid-state hard drive, as do all smartphones and tablet computers.

I gauged the accuracy of this prediction through a highly sophisticated and ingenious method: I went to the nearest Wal-Mart and looked at the computers they had for sale. Two of the mid-priced desktop PCs had rotating disk hard drives, and they also had DVD disc drives, which was surprising, and which probably makes the “other electromechanical computing devices” part of the prediction false.

The HP Pavilion 590-p0033w has a rotating hard disk drive, indicated by the “7200 RPM” (revolutions per minute) speed figure on the front of this box. It also says it has a “DVD-Writer.” This is a newly manufactured machine, and at $499, is a mid-ranged desktop.
The HP Slim Desktop 290-p0043w also has a rotating hard disk drive, with a 7200 RPM speed.
And before anyone says “Well, only the clunky, old-fashioned desktops still have rotating disk drives!” check out this low-end (but newly manufactured) laptop I also found at Wal-Mart. The HP 15-bs212wm has a rotating hard disk drive and a DVD drive.

If the world’s biggest brick-and-mortar retailer is still selling brand new computers with rotating hard disk drives and rotating DVD disc drives, then it can’t be said that solid state memory storage has “fully replaced” the older technology.

“Three-dimensional nanotube lattices are now a prevalent form of computing circuitry.”

MOSTLY WRONG

Many solid-state computer memory chips, such as common thumbdrives and MicroSD cards, have 3D circuitry, and it is accurate to call them “prevalent.” However, 3D circuitry has not found routine use in computer processors thanks to unsolved problems with high manufacturing costs, unacceptably high defect rates, and overheating.

An internal diagram of a common MicroSD card, which has the simple job of storing data. It has about 18 layers. Memory storage chips are less sensitive to manufacturing defects since they have redundancy.
An exploded diagram of Intel’s upcoming “Lakefield” processor, which has the complex job of storing and processing data. It has four layers, and is much more technically challenging to make than a 3D memory chip.

In late 2018, Intel claimed it had overcome those problems thanks to a proprietary chip manufacturing process, and that it would start selling the resulting “Lakefield” line of processors soon. These processors have four, vertically stacked layers, so they meet the requirement for being “3D.” Intel hasn’t sold any yet, and it remains to be seen whether they will be commercially successful.

Silicon is still the dominant computer chip substrate, and carbon-based nanotubes haven’t been incorporated into chips because Intel and AMD couldn’t figure out how to cheaply and reliably fashion them into chip features. Nanotube computers are still experimental devices confined to labs, and they are grossly inferior to traditional silicon-based computers when it comes to doing useful tasks. Nanotube computer chips that are also 3D will not be practical anytime soon.

It’s clear that, in 1999, Kurzweil simply overestimated how much computer hardware would improve over the next 20 years.

“The majority of ‘computes’ of computers are now devoted to massively parallel neural nets and genetic algorithms.”

UNCLEAR

Assessing this prediction is hard because it’s unclear what the term “computes” means. It is probably shorthand for “compute cycles,” which is a term that describes the sequence of steps to fetch a CPU instruction, decode it, access any operands, perform the operation, and write back any result. It is a process that is more complex than doing a calculation, but that is still very basic. (I imagine that computer scientists are the only people who know, offhand, what “compute cycle” means.)

Assuming “computes” means “compute cycles,” I have no idea how to quantify the number of compute cycles that happened, worldwide, in 2019. It’s an even bigger mystery to me how to determine which of those compute cycles were “devoted to massively parallel neural nets and genetic algorithms.” Kurzweil doesn’t describe a methodology that I can copy.

Also, what counts as a “massively parallel neural net”? How many processor cores does a neutral net need to have to be “massively parallel”? What are some examples of non-massively parallel neural nets? Again, an ambiguity with the wording of the prediction frustrates an analysis. I’d love to see Kurzweil assess the accuracy of this prediction himself and to explain his answer.

“Significant progress has been made in the scanning-based reverse engineering of the human brain. It is now fully recognized that the brain comprises many specialized regions, each with its own topology and architecture of interneuronal connections. The massively parallel algorithms are beginning to be understood, and these results have been applied to the design of machine-based neural nets.”

PARTLY RIGHT

The use of the ambiguous adjective “significant” gives Kurzweil an escape hatch for the first part of this prediction. Since 1999, brain scanning technology has improved, and the body of scientific literature about how brain activity correlates with brain function has grown. Additionally, much has been learned by studying the brain at a macro-level rather than at a cellular level. For example, in a 2019 experiment, scientists were able to accurately reconstruct the words a person was speaking by analyzing data from the person’s brain implant, which was positioned over their auditory cortex. Earlier experiments showed that brain-computer-interface “hats” could do the same, albeit with less accuracy. It’s fair to say that these and other brain-scanning studies represent “significant progress” in understanding how parts of the human brain work, and that the machines were gathering data at the level of “brain regions” rather than at the finer level of individual brain cells.

Yet in spite of many tantalizing experimental results like those, an understanding of how the brain produces cognition has remained frustratingly elusive, and we have not extracted any new algorithms for intelligence from the human brain in the last 20 years that we’ve been able to incorporate into software to make machines smarter. The recent advances in deep learning and neural network computers–exemplified by machines like AlphaZero–use algorithms invented in the 1980s or earlier, just running on much faster computer hardware (specifically, on graphics processing units originally developed for video games).

If anything, since 1999, researchers who studied the human brain to gain insights that would let them build artificial intelligences have come to realize how much more complicated the brain was than they first suspected, and how much harder of a problem it would be to solve. We might have to accurately model the brain down the the intracellular level (e.g. – not just neurons simulated, but their surface receptors and ion channels simulated) to finally grasp how it works and produces intelligent thought. Considering that the best we have done up to this point is mapping the connections of a fruit fly brain and that a human brain is 600,000 times bigger, we won’t have detailed human brain simulation for many decades.

“It is recognized that the human genetic code does not specify the precise interneuronal wiring of any of these regions, but rather sets up a rapid evolutionary process in which connections are established and fight for survival. The standard process for wiring machine-based neural nets uses a similar genetic evolutionary algorithm.”

RIGHT

This prediction is right, but it’s not noteworthy since it merely re-states things that were widely accepted and understood to be true when the book was published in 1999. It’s akin to predicting that “A thing we think is true today will still be considered true in 20 years.”

The prediction’s first statement is an odd one to make since it implies that there was ever serious debate among brain scientists and geneticists over whether the human genome encoded every detail of how the human brain is wired. As Kurzweil points out earlier in the book, the human genome is only about 3 billion base-pairs long, and the genetic information it contains could be as low as 23 megabytes, but a developed human brain has 100 billion neurons and 1015 connections (synapses) between those neurons. Even if Kurzweil is underestimating the amount of information the human genome stores by several orders of magnitude, it clearly isn’t big enough to contain instructions for every aspect of brain wiring, and therefore, it must merely lay down more general rules for brain development.

I also don’t understand why Kurzweil wrote the second part of the statement. It’s commonly recognized that part of childhood brain development involves the rapid paring of interneuronal connections that, based on interactions with the child’s environment, prove less useful, and the strengthening of connections that prove more useful. It would be apt to describe this as “a rapid evolutionary process” since the child’s brain is rewiring to adapt to child to its surroundings. This mechanism of strengthening brain connection pathways that are rewarded or frequently used, and weakening pathways that result in some kind of misfortune or that are seldom used, continues until the end of a person’s life (though it gets less effective as they age). This paradigm was “recognized” in 1999 and has never been challenged.

Machine-based neural nets are, in a very general way, structured like the human brain, they also rewire themselves in response to stimuli, and some of them use genetic algorithms to guide the rewiring process (see this article for more info: https://news.mit.edu/2017/explained-neural-networks-deep-learning-0414). However, all of this was also true in 1999.

“A new computer-controlled optical-imaging technology using quantum-based diffraction devices has replaced most lenses with tiny devices that can detect light waves from any angle. These pinhead-sized cameras are everywhere.”

WRONG

Devices that harness the principle of quantum entanglement to create images of distant objects do exist and are better than devices from 1999, but they aren’t good enough to exit the R&D labs. They also have not been shrunk to pinhead sizes. Kurzweil overestimated how fast this technology would develop.

Virtually all cameras still have lenses, and still operate by the old method of focusing incoming light onto a physical medium that captures the patterns and colors of that light to form a stored image. The physical medium used to be film, but now it is a digital image sensor.

A teardown of a Samsung Galaxy S10 smartphone reveals its three digital cameras, which produce very high-quality photos and videos. Comparing them to the tweezers and human fingers, it’s clear they are only as big as small coins.

Digital cameras were expensive, clunky, and could only take low-quality images in 1999, so most people didn’t think they were worth buying. Today, all of those deficiencies have been corrected, and a typical digital camera sensor plus its integrated lens is the size of a small coin. As a result, the devices are very widespread: 3.2 billion people owned a smartphone in 2019, and all of them probably had integral digital cameras. Laptops and tablet computers also typically have integral cameras. Small standalone devices, like pocket cameras, webcams, car dashcams, and home security doorbell cameras, are also cheap and very common. And as any perusal of YouTube.com will attest, people are using their cameras to record events of all kinds, all the time, and are sharing them with the world.

This prediction stands out as one that was wrong in specifics, but kind of right in spirit. Yes, since 1999, cameras have gotten much smaller, cheaper, and higher-quality, and as a result, they are “everywhere” in the figurative sense, with major consequences (good and bad) for the world. Unfortunately, Kurzweil needlessly stuck his neck out by saying that the cameras would use an exotic new technology, and that they would be “pinhead-sized” (he hurt himself the same way by saying that the augmented reality glasses of 2019 would specifically use retinal projection). For those reasons, his prediction must be judged as “wrong.”

“Autonomous nanoengineered machines can control their own mobility and include significant computational engines. These microscopic machines are beginning to be applied to commercial applications, particularly in manufacturing and process control, but are not yet in the mainstream.”

WRONG

A state-of-the-art microscopic machine invented in 2019 can move around in water by twirling its four “flippers.”

While there has been significant progress in nano- and micromachine technology since 1999 (the 2016 Nobel Prize in Chemistry was awarded to scientists who had invented nanomachines), the devices have not gotten nearly as advanced as Kurzweil predicted. Some microscopic machines can move around, but the movement is guided externally rather than autonomously. For example, turtle-like micromachines invented by Dr. Marc Miskin in 2019 can move by twirling their tiny “flippers,” but the motion is powered by shining laser beams on them to expand and contract the metal in the flippers. The micromachines lack their own power packs, lack computers that tell the flippers to move, and therefore aren’t autonomous.

In 2003, UCLA scientists invented “nano-elevators,” which were also capable of movement and still stand as some of the most sophisticated types of nanomachines. However, they also lacked onboard computers and power packs, and were entirely dependent on external control (the addition of acidic or basic liquids to make their molecules change shape, resulting in motion). The nano-elevators were not autonomous.

Similarly, a “nano-car” was built in 2005, and it can drive around a flat plate made of gold. However, the movement is uncontrolled and only happens when an external stimulus–an input of high heat into the system–is applied. The nano-car isn’t autonomous or capable of doing useful work. This and all the other microscopic machines created up to 2019 are just “proof of concept” machines that demonstrate mechanical principles that will someday be incorporated into much more advanced machines.

Significant progress has been made since 1999 building working “molecular motors,” which are an important class of nanomachine, and building other nanomachine subcomponents. However, this work is still in the R&D phase, and we are many years (probably decades) from being able to put it all together to make a microscopic machine that can move around under its own power and will, and perform other operations. The kinds of microscopic machines Kurzweil envisioned don’t exist in 2019, and by extension are not being used for any “commercial applications.”

“Hand-held displays are extremely thin, very high resolution, and weigh only ounces.”

RIGHT

The Samsung Galaxy Tab S5 is, by any reasonable account, extremely thin and very high resolution, and it weighs ounces. New, it costs less than $500, making it affordable for millions of average people. There are even better tablet computers than this.

The tablet computers and smartphones of 2019 meet these criteria. For example, the Samsung Galaxy Tab S5 is only 0.22″ thick, has a resolution that is high enough for the human eye to be unable to discern individual pixels at normal viewing distances (3840 x 2160 pixels), and weighs 14 ounces (since 1 pound is 16 ounces, the Tab S5’s weight falls below the higher unit of measurement, and it should be expressed in ounces). Tablets like this are of course meant to be held in the hands during use.

The smartphones of 2019 also meet Kurzweil’s criteria.

“People read documents either on the hand-held displays or, more commonly, from text that is projected into the ever present virtual environment using the ubiquitous direct-eye displays. Paper books and documents are rarely used or accessed.

MOSTLY WRONG

A careful reading of this prediction makes it clear that Kurzweil believed AR glasses would be commonest way people would read text documents by late 2019. The second most common method would be to read the documents off of smartphones and tablet computers. A distant last place would be to read old-fashioned books with paper pages. (Presumably, reading text off of a laptop or desktop PC monitor was somewhere between the last two.)

The first part of the prediction is badly wrong. At the end of 2019, there were fewer than 1 million sets of AR glasses in use around the world. Even if all of their owners were bibliophiles who spent all their waking hours using their glasses to read documents that were projected in front of them, it would be mathematically impossible for that to constitute the #1 means by which the human race, in aggregate, read written words.

The bar chart shows yearly sales of paper books in the U.S. Sales declined in the early 2010s due to the debut of e-readers and smartphones, but then they recovered a great deal. Books aren’t dead.

Certainly, is now much more common for people to read documents on handheld displays like smartphones and tablets than at any time in the past, and paper’s dominance of the written medium is declining. Additionally, there are surely millions of Americans who, like me, do the vast majority of their reading (whether for leisure or work) off of electronic devices and computer screens. However, old-fashioned print books, newspapers, magazines, and packets of workplace documents are far from extinct, and it is inaccurate to claim they “are rarely used or accessed,” both in the relative and absolute senses of the statement. As the bar chart above shows, sales of print books were actually slightly higher in 2019 than they were in 2004, which was near the time when The Age of Spiritual Machines was published.

Sales of “graphic paper” have dropped in rich countries over the last 20 years and will also start dropping in poor countries soon.

Finally, sales of “graphic paper”–which is an industry term for paper used in newsprint, magazines, office printer paper, and other common applications–were still high in 2019, even if they were trending down. If 110 million metric tons of graphic paper were sold in 2019, then it can’t be said that “Paper books and documents are rarely used or accessed.” Anecdotally, I will say that, though my office primarily uses all-digital documents, it is still common to use paper documents, and in fact it is sometimes preferable to do so.

Most twentieth-century paper documents of interest have been scanned and are available through the wireless network.”

RIGHT

The wording again makes it impossible to gauge the prediction’s accuracy. What counts as a “paper document”? For sure, we can say it includes bestselling books, newspapers of record, and leading science journals, but what about books that only sold a few thousand copies, small-town newspapers, and third-tier science journals? Are we also counting the mountains of government reports produced and published worldwide in the last century, mostly by obscure agencies and about narrow, bland topics? Equally defensible answers could result in document numbers that are orders of magnitude different.

Also, the term “of interest” provides Kurzweil with an escape hatch because its meaning is subjective. If it were the case that electronic scans of 99% of the books published in the twentieth century were NOT available on the internet in 2019, he could just say “Well, that’s because those books aren’t of interest to modern people” and he could then claim he was right.

It would have been much better if the prediction included a specific metric, like: “By the end of 2019, electronic versions of at least 1 million full-length books written in the twentieth century will be available through the wireless network.” Alas, it doesn’t, and Kurzweil gets this one right on a technicality.

For what it’s worth, I think the prediction was also right in spirit. Millions of books are now available to read online, and that number includes most of the 20th century books that people in 2019 consider important or interesting. One of the biggest repositories of e-books, the “Internet Archive,” has 3.8 million scanned books, and they’re free to view. (Google actually scanned 25 million books with the intent to create something like its own virtual library, but lawsuits from book publishers have put the project into abeyance.)

The New York Times, America’s newspaper of record, has made scans of every one of its issues since its founding in 1851 available online, as have other major newspapers such as the Washington Post. The cursory research I’ve done suggests that all or almost all issues of the biggest American newspapers are now available online, either through company websites or third party sites like newspapers.com.

The U.S. National Archives has scanned over 92 million pages of government documents, and made them available online. Primacy was given to scanning documents that were most requested by researchers and members of the public, so it could easily be the case that most twentieth-century U.S. government paper documents of interest have been scanned. Additionally, in two years the Archives will start requiring all U.S. agencies to submit ONLY digital records, eliminating the very cumbersome middle step of scanning paper, and thenceforth ensuring that government records become available to and easily searchable by the public right away.

The New England Journal of Medicine, the journal Science, and the journal Nature all offer scans of pass issues dating back to their foundings in the 1800s. I lack the time to check whether this is also true for other prestigious academic journals, but I strongly suspect it is. All of the seminal papers documenting the significant scientific discoveries of the 20th century are now available online.

Without a doubt, the internet and a lot of diligent people scanning old books and papers have improved the public’s access to written documents and information by orders of magnitude compared to 1998. It truly is a different world.

“Most learning is accomplished using intelligent software-based simulated teachers. To the extent that teaching is done by human teachers, the human teachers are often not in the local vicinity of the student. The teachers are viewed more as mentors and counselors than as sources of learning and knowledge.”

WRONG*

The technology behind and popularity of online learning and AI teachers didn’t advance as fast as Kurzweil predicted. At the end of 2019, traditional in-person instruction was far more common than and was widely considered to be superior to online learning, though the latter had niche advantages.

However, shortly after 2019 ended, the COVID-19 pandemic forced most of the world into quarantine in an effort to slow the virus’ spread. Schools, workplaces, and most other places where people usually gathered were shut down, and people the world over were forced to do everyday activities remotely. American schools and universities switched to online classrooms in what might be looked at as the greatest social experiment of the decade. For better or worse, most human teachers were no longer in the local vicinity of their students.

Thus, part of Kurzweil’s prediction came true, a few months late and as an unwelcome emergency measure rather than as a voluntary embrasure of a new educational paradigm. Unfortunately, student reactions to online learning have been mostly negative. A 2020 survey found that most college students believed it was harder to absorb knowledge and to learn new skills through online classrooms than it was through in-person instruction. Almost all of them unsurprisingly said that traditional classroom environments were more useful for developing social skills. The survey data I found on the attitudes of high school students showed that most of them considered distance learning to be of inferior quality. Public school teachers and administrators across the country reported higher rates of student absenteeism when schools switched to 100% online instruction, and their support for it measurably dropped as time passed.

The COVID-19 lockdowns have made us confront hard truths about virtual learning. It hasn’t been the unalloyed good that Kurzweil seems to have expected, though technological improvements that make the experience more immersive (ex – faster internet to reduce lag, virtual reality headsets) will surely solve some of the problems that have come to light.

“Students continue to gather together to exchange ideas and to socialize, although even this gathering is often physically and geographically remote.”

RIGHT

As I described at length, traditional in-person classroom instruction remained the dominant educational paradigm in late 2019, which of course means that students routinely gathered together for learning and socializing. The second part of the prediction is also right, since social media, cheaper and better computing devices and internet service, and videophone apps have made it much more common for students of all ages to study, work, and socialize together virtually than they did in 1998.

“All students use computation. Computation in general is everywhere, so a student’s not having a computer is rarely an issue.”

MOSTLY RIGHT

First, Kurzweil’s use of “all” was clearly figurative and not literal. If pressed on this back in 1998, surely he would have conceded that even in 2019, students living in Amish communities, living under strict parents who were paranoid technophobes, or living in the poorest slums of the poorest or most war-wrecked country would not have access to computing devices that had any relevance to their schooling.

Second, note the use of “computation” and “computer,” which are very broad in meaning. As I wrote earlier, “A computer is a device that stores and processes data, and executes its programming. Any machine that meets those criteria counts as a computer, regardless of how fast or how powerful it is…something as simple as a pocket calculator, programmable thermostat, or a Casio digital watch counts as a computer.”

With these two caveats in mind, it’s clear that “all students use computation” by default since all people except those in the most deprived environments routinely interact with computing devices. It is also true that “computation in general is everywhere,” and the prediction merely restates this earlier prediction: “Computers are now largely invisible. They are embedded everywhere…” In the most literal sense, most of the prediction is correct.

However, a judgement is harder to make if we consider whether the spirit of the prediction has been fulfilled. In context, the prediction’s use of “computation” and “computer” surely refers to devices that let students efficiently study materials, watch instructional videos, and do complex school assignments like writing essays and completing math equations. These devices would have also required internet access to perform some of those key functions. At least in the U.S., virtually all schools in late 2019 have computer terminals with speedy internet access that students can use for free. A school without either of those would be considered very unusual. Likewise, almost all of the country’s public libraries have public computer terminals and internet service (and, of course, books), which people can use for their studies and coursework if they don’t have computers or internet in their homes.

At the same time, 17% of students in the U.S. still don’t have computers in their homes and 18% have no internet access or very slow service (there’s probably large overlap between people in those two groups). Mostly this is because they live in remote areas where it isn’t profitable for telecom companies to install high-speed internet lines, or because they belong to extremely poor or disorganized households. This lack of access to computers and internet service results in measurably worse academic performance, a phenomenon called the “homework gap” or the “digital gap.” With this in mind, it’s questionable whether the prediction’s last claim, that “a student’s not having a computer is rarely an issue” has come true.

“Most adult human workers spend the majority of their time acquiring new skills and knowledge.”

WRONG

This is so obviously wrong that I don’t need to present any data or studies to support my judgement. With a tiny number of exceptions, employed adults spend most of their time at work using the same skills over and over to do the same set of tasks. Yes, today’s jobs are more knowledge-based and technology-based than ever before, and a greater share of jobs require formal degrees and training certificates than ever, but few professions are so complex or fast-changing that workers need to spend most of their time learning new skills and knowledge to keep up.

In fact, since the Age of Spiritual Machines was published, a backlash against the high costs and necessity of postsecondary education–at least as it is in America–has arisen. Sentiment is growing that the four-year college degree model is wasteful, obsolete for most purposes, and leaves young adults saddled with debts that take years to repay. Sadly, I doubt these critics will succeed bringing about serious reforms to the system.

If and when we reach the point where a postsecondary degree is needed just to get a respectably entry-level job, and then merely keeping that job or moving up to the next rung on the career ladder requires workers to spend more than half their time learning new skills and knowledge–whether due to competition from machines that keep getting better and taking over jobs or due to the frequent introductions of new technologies that human workers must learn to use–then I predict a large share of humans will become chronically demoralized and will drop out of the workforce. This is a phenomenon I call “job automation escape velocity,” and intend to discuss at length in a future blog post.

“Blind persons routinely use eyeglass-mounted reading-navigation systems, which incorporate the new, digitally controlled, high-resolution optical sensors. These systems can read text in the real world, although since most print is now electronic, print-to-speech reading is less of a requirement. The navigation function of these systems, which emerged about ten years ago, is now perfected. These automated reading-navigation assistants communicate to blind users through both speech and tactile indicators. These systems are also widely used by sighted persons since they provide a high-resolution interpretation of the visual world.”

PARTLY RIGHT

As stated previously, AR glasses have not yet been successful on the commercial market and are used by almost no one, blind or sighted. However, there are smartphone apps meant for blind people that use the phone’s camera to scan what is in front of the person, and they have the range of functions Kurzweil described. For example, the “Seeing AI” app can recognize text and read it out loud to the user, and can recognize common objects and familiar people and verbally describe or name them.

Additionally, there are other smartphone apps, such as “BlindSquare,” which use GPS and detailed verbal instructions to guide blind people to destinations. It also describes nearby businesses and points of interest, and can warn users of nearby curbs and stairs.

Apps that are made specifically for blind people are not in wide usage among sighted people.

“Retinal and vision neural implants have emerged but have limitations and are used by only a small percentage of blind persons.”

MOSTLY RIGHT

Retinal implants exist and can restore limited vision to people with certain types of blindness. However, they provide only a very coarse level of sight, are expensive, and require the use of body-worn accessories to collect, process, and transmit visual data to the eye implant itself. The “Argus II” device is the only retinal implant system available in the U.S., and the FDA approved it in 2013. As of this writing, the manufacturer’s website claimed that only 350 blind people worldwide used the systems, which indeed counts as “only a small percentage of blind persons.”

The “Argus II” system consists of an electronic device surgically implanted in a person’s retina which receives vision data from externally-worn camera glasses and a data processing unit.

The meaning of “vision neural implants” is unclear, but could only refer to devices that connect directly to a blind person’s optic nerve or brain vision cortex. While some human medical trials are underway, none of the implants have been approved for general use, nor does that look poised to change.

“Deaf persons routinely read what other people are saying through the deaf persons’ lens displays.”

MOSTLY WRONG

“Lens displays” is clearly referring to those inside augmented reality glasses and AR contact lenses, so the prediction says that a person wearing such eyewear would be able to see speech subtitles across his or her field of vision. While there is at least one model of AR glasses–the Vuzix Blade–that has this capability, almost no one uses them because, as I explored earlier in this review, AR glasses failed on the commercial market. By extension, this means the prediction also failed to come true since it specified that deaf people would “routinely” wear AR glasses by 2019.

A person wearing Vuzix Blade glasses can download the “Zoi Meet” app into the device and have subtitles of spoken words displayed across their field of vision.

However, in the prediction’s defense, deaf people commonly use real-time speech-to-text apps on their smartphones. While not as convenient as having captions displayed across one’s field of view, it still makes communication with non-deaf people who don’t know sign language much easier. Google, Apple, and many other tech companies have fielded high-quality apps of this nature, some of which are free to download. Deaf people can also type words into their smartphones and show them to people who can’t understand sign language, which is easier than the old-fashioned method of writing things down on notepad pages and slips of paper.

Additionally, video chat / video phone technology is widespread and has been a boon to deaf people. By allowing callers to see each other, video calls let deaf people remotely communicate with each other through sign language, facial expressions and body movements, letting them experience levels of nuanced dialog that older text-based messaging systems couldn’t convey. Video chat apps are free or low-cost, and can deliver high-quality streaming video, and the apps can be used even on small devices like smartphones thanks to their forward-facing cameras.

In conclusion, while the specifics of the prediction were wrong, the general sentiment that new technologies, specifically portable devices, would greatly benefit deaf people was right. Smartphones, high-speed internet, and cheap webcams have made deaf people far more empowered in 2019 than they were in 1998.

“There are systems that provide visual and tactile interpretations of other auditory experiences such as music, but there is debate regarding the extent to which these systems provide an experience comparable to that of a hearing person.”

RIGHT

There is an Apple phone app called “BW Dance” meant for the deaf that converts songs into flashing lights and vibrations that are said to approximate the notes of the music. However, there is little information about the app and it isn’t popular, which makes me think deaf people have not found it worthy of buying or talking about. Though apparently unsuccessful, the existence of the BW Dance app meets all the prediction’s criteria. The prediction says nothing about whether the “systems” will be popular among deaf people by 2019–it just says the systems will exist.

The “Not Impossible” music suit.

That’s probably an unsatisfying answer, so let me mention some additional research findings. A company called “Not Impossible Labs” sells body suits designed for deaf people that convert songs into complex patterns of vibrations transmitted into the wearer’s body through 24 different touch points. The suits are well-reviewed, and it’s easy to believe that they’d provide a much richer sensory experience than a buzzing smartphone with the BW Dance app would. However, the suits lack any sort of displays, meaning they don’t meet the criterion of providing users a visual interpretation of songs.

There are many “music visualization” apps that create patterns of shapes, colors, and lines to convey the musical structures of songs, and some deaf people report they are useful in that role. It would probably be easy to combine a vibrating body suit with AR glasses to provide wearers with immersive “visual and tactile interpretations” of music. The technology exists, but the commercial demand does not.

“Cochlear and other implants for improving hearing are very effective and are widely used.”

RIGHT

Since receiving FDA approval in 1984, cochlear implants have significantly improved in quality and have become much more common among deaf people. While the level of benefit widely varies from one user to another, the average user ends us hearing well enough to carry on a phone conversation in a quiet room. That means cochlear implants are “very effective” for most people who use them, since the alternative is usually having no sense of hearing at all. Cochlear implants are in fact so effective that they’ve spurred fears among deaf people that they will eradicate the Deaf culture and end the use of sign language, leading some deaf people to reject the devices even though their senses would benefit.

Cochlear implants provide increasing benefits to users as their technology improves.
Cochlear implant sales have been increasing in the U.S. as more deaf people have the devices installed. Some deaf people fear the technology will make their culture extinct.

Other types of implants for improving hearing also exist, including middle ear implants, bone-anchored hearing aids, and auditory brainstem implants. While some of these alternatives are more optimal for people with certain hearing impairments, they haven’t had the same impact on the Deaf community as cochlear implants.

“Paraplegic and some quadriplegic persons routinely walk and climb stairs through a combination of computer-controlled nerve stimulation and exoskeletal robotic devices.”

WRONG

Paraplegics and quadriplegics use the same wheelchairs they did in 1998, and they can only traverse stairs that have electronic lift systems. As noted in my Prometheus review, powered exoskeletons exist today, but almost no one uses them, probably due to very high costs and practical problems. Some rehabilitation clinics for people with spinal cord and leg injuries use therapeutic techniques in which the disabled person’s legs and spine are connected to electrodes that activate in sequences that assist them to walk, but these nerve and muscle stimulation devices aren’t used outside of those controlled settings. To my knowledge, no one has built the sort of prosthesis that Kurzweil envisioned, which was a powered exoskeleton that also had electrodes connected to the wearer’s body to stimulate leg muscle movements.

“Generally, disabilities such as blindness, deafness, and paraplegia are not noticeable and are not regarded as significant.”

WRONG (sadly)

As noted, technology has not improved the lives of disabled people as much as Kurzweil predicted they would between 1998 and 2019. Blind people still need to use walking canes, most deaf people don’t have hearing implants of any sort (and if they do, their hearing is still much worse than average), and paraplegics still use wheelchairs. Their disabilities are noticeable often at a glance, and always after a few moments of face-to-face interaction.

Blindness, deafness, and paraplegia still have many significant negative impacts on people afflicted with them. As just one example, employment rates and average incomes for working-age people with those infirmities are all lower than they are for people without. In 2019, the U.S. Social Security program still viewed those conditions as disabilities and paid welfare benefits to people with them.

“You can do virtually anything with anyone regardless of physical proximity. The technology to accomplish this is easy to use and ever present.”

PARTLY RIGHT

While new and improved technologies have made it vastly easier for people to virtually interact, and have even opened new avenues of communication (chiefly, video phone calls) since the book was published in 1998, the reality of 2019 falls short of what this prediction seems to broadly imply. As I’ll explain in detail throughout this blog entry, there are many types of interpersonal interaction that still can’t be duplicated virtually. However, the second part of the prediction seems right. Cell phone and internet networks are much better and have much greater geographic reach, meaning they could be fairly described as “ever present.” Likewise, smartphones, tablet computers, and other devices that people use to remotely interact with each other over those phone and internet networks are cheap, “easy to use and ever present.”

“‘Phone’ calls routinely include high-resolution three-dimensional images projected through the direct-eye displays and auditory lenses.”

WRONG

As stated in previous installments of this analysis, the computerized glasses, goggles and contact lenses that Kurzweil predicted would be widespread by the end of 2019 failed to become so. Those devices would have contained the “direct-eye displays” that would have allowed users to see simulated 3D images of people and other things in their proximities. Not even 1% of 1% of phone calls in 2019 involved both parties seeing live, three-dimensional video footage of each other. I haven’t met one person who reported doing this, whereas I know many people who occasionally do 2D video calls using cameras and traditional screen displays.

Video calls have become routine thanks to better, cheaper computing devices and internet service, but neither party sees a 3D video feed. And, while this is mostly my anecdotal impression, voice-only phone calls are vastly more common in aggregate number and duration than video calls. (I couldn’t find good usage data to compare the two, but don’t see how it’s possible my conclusion could be wrong given the massive disparity I have consistently observed day after day.) People don’t always want their faces or their surroundings to be seen by people on the other end of a call, and the seemingly small extra amount of effort required to do a video call compared to a mere voice call is actually a larger barrier to the former than futurists 20 years ago probably thought it would be.

“Three-dimensional holography displays have also emerged. In either case, users feel as if they are physically near the other person. The resolution equals or exceeds optimal human visual acuity. Thus a person can be fooled as to whether or not another person is physically present or is being projected through electronic communication.”

MOSTLY WRONG

As I wrote in my Prometheus review, 3D holographic display technology falls far short of where Kurzweil predicted it would be by 2019. The machines are very expensive and uncommon, and their resolutions are coarse, with individual pixels and voxels being clearly visible.

Augmented reality glasses lack the fine resolution to display lifelike images of people, but some virtual reality goggles sort of can. First, let’s define what level of resolution a video display would need to look “lifelike” to a person with normal eyesight.

A depiction of a human eye’s horizontal field of view.

A human being’s field of vision is front-facing, flared-out “cone” with a 210 degree horizontal arc and a 150 degree vertical arc. This means, if you put a concave display in front of a person’s face that was big enough to fill those degrees of horizontal and vertical width, it would fill the person’s entire field of vision, and he would not be able to see the edges of the screen even if he moved his eyes around.

If this concave screen’s pixels were squares measuring one degree of length to a side, then the screen would look like a grid of 210 x 150 pixels. To a person with 20/20 vision, the images on such a screen would look very blocky, and much less detailed than how he normally sees. However, lab tests show that if we shrink the pixels to 1/60th that size, so the concave screen is a grid of 12,600 x 9,000 pixels, then the displayed images look no worse than what the person sees in the real world. Even a person with good eyesight can’t see the individual pixels or the thin lines that separate them, and the display quality is said to be “lifelike.”

The “Varjo VR-1” virtual reality goggles

No commercially available VR goggles have anything close to lifelike displays, either in terms of field of view or 60-pixels-per-degree resolutions. Only the “Varjo VR-1” googles come close to meeting the technical requirements laid out by the prediction: they have 60-pixels-per-degree resolutions, but only for the central portions of their display screens, where the user’s eyes are usually looking. The wide margins of the screens are much lower in resolution. If you did a video call, the other person filmed themselves using a very high-quality 4K camera, and you used Varjo VR-1 goggles to view the live footage while keeping your eyes focused on the middle of the screen, that person might look as lifelike as they would if they were physically present with you.

Problematically, a pair of Varjo VR-1’s is $6,000. Also, in 2019, it is very uncommon for people to use any brand of VR goggles for video calls. Another major problem is that the goggles are bulky and would block people on the other end of a video call from seeing the upper half of your own face. If both of your wore VR goggles in the hopes of simulating an in-person conversation, the intimacy would be lost because neither of you would be able to see most of the other person’s face.

VR technology simply hasn’t improved as fast as Kurzweil predicted. Trends suggest that goggles with truly lifelike displays won’t exist until 2025 – 2028, and they will be expensive, bulky devices that will need to be plugged into larger computing devices for power and data processing. The resolutions of AR glasses and 3D holograms are lagging even more.

“Routinely available communication technology includes high-quality speech-to-speech language translation for most common language pairs.”

MOSTLY RIGHT

In 2019, there were many speech-to-speech language translation apps on the market, for free or very low cost. The most popular was Google Translate, which had a very high user rating, had been downloaded by over 6 million people, and could do voice translations between 30+ languages.

The only part of the prediction that remains debatable is the claim that the technology would offer “high-quality” translations. Professional human translators produce more coherent and accurate translations than even the best apps, and it’s probably better to say that machines can do “fair-to-good-quality” language translation. Of course, it must be noted that the technology is expected to improve.

“Reading books, magazines, newspapers, and other web documents, listening to music, watching three-dimensional moving images (for example, television, movies), engaging in three-dimensional visual phone calls, entering virtual environments (by yourself, or with others who may be geographically remote), and various combinations of these activities are all done through the ever present communications Web and do not require any equipment, devices, or objects that are not worn or implanted.”

MOSTLY RIGHT

Reading text is easily and commonly done off of smartphones and tablet computers. Smartphones and small MP3 players are also commonly used to store and play music. All of those devices are portable, can easily download text and songs wirelessly from the internet, and are often “worn” in pockets or carried around by hand while in use. Smartphones and tablets can also be used for two-way visual phone calls, but those involve two-dimensional moving images, and not three as the prediction specified.

As detailed previously, VR technology didn’t advance fast enough to allow people to have “three-dimensional” video calls with each other by 2019. However, the technology is good enough to generate immersive virtual environments where people can play games or do specialized types of work. Though the most powerful and advanced VR goggles must be tethered to desktop PCs for power and data, there are “standalone” goggles like the “Oculus Go” that provide a respectable experience and don’t need to be plugged in to anything else during operation (battery life is reportedly 2 – 3 hours).

“The all-enveloping tactile environment is now widely available and fully convincing. Its resolution equals or exceeds that of human touch and can simulate (and stimulate) all the facets of the tactile sense, including the senses of pressure, temperature, textures, and moistness…the ‘total touch’ haptic environment requires entering a virtual reality booth.”

WRONG

Aside from a few, expensive prototypes, there are no body suits or “booths” that simulate touch sensations. The only kind of haptic technology in widespread use is video game control pads that can vibrate to crudely approximate the feeling of shooting a gun or being next to an explosion.

“These technologies are popular for medical examinations, as well as sensual and sexual interactions…”

WRONG

Though video phone technology has made remote doctor appointments more common, technology has not yet made it possible for doctors to remotely “touch” patients for physical exams. “Remote sex” is unsatisfying and basically nonexistent. Haptic devices (called “teledildonics” for those specifically designed for sexual uses) that allow people to remotely send and receive physical force to one another exist, but they are too expensive and technically limited to find use.

“Rapid economic expansion and prosperity has continued.”

PARTLY RIGHT

Assessing this prediction requires a consideration of the broader context in the book. In the chapter titled “2009,” which listed predictions that would be true by that year, Kurzweil wrote, “Despite occasional corrections, the ten years leading up to 2009 have seen continuous economic expansion and prosperity…” The prediction for 2019 says that phenomenon “has continued,” so it’s clear he meant that economic growth for the time period from 1998 – December 2008 would be roughly the same as the growth from January 2009 – December 2019. Was it?

U.S. real GDP growth rate (year-over-year)

The above chart shows the U.S. GDP growth rate. The economy continuously grew during the 1998 – 2019 timeframe, except for most of 2009, which was the nadir of the Great Recession.

OECD GDP growth rate from 1998 – 2019

Above is a chart I made using data for the OECD for the same time period. The post-Great Recession GDP growth rates are slightly lower than the pre-recession era’s, but growth is still happening.

Global GDP growth rate from 1998 – 2019

And this final chart shows global GDP growth over the same period.

Clearly, the prediction’s big miss was the Great Recession, but to be fair, nearly every economist in the world failed to foresee it–even in early 2008, many of them thought the economic downturn that was starting would be a run-of-the-mill recession that the world economy would easily bounce back from. The fact that something as bad as the Great Recession happened at all means the prediction is wrong in an important sense, as it implied that economic growth would be continuous, but it wasn’t since it went negative for most of 2009, in the worst downturn since the 1930s.

At the same time, Kurzweil was unwittingly prescient in picking January 1, 2009 as the boundary of his two time periods. As the graphs show, that creates a neat symmetry to his two timeframes, with the first being a period of growth ending with a major economic downturn and the second being the inverse.

While GDP growth was higher during the first timeframe, the difference is less dramatic than it looks once one remembers that much of what happened from 2003 – 2007 was “fake growth” fueled by widespread irresponsible lending and transactions involving concocted financial instruments that pumped up corporate balance sheets without creating anything of actual value. If we lower the heights of the line graphs for 2003 – 2007 so we only see “honest GDP growth,” then the two time periods do almost look like mirror images of each other. (Additionally, if we assume that adjustment happened because of the actions of wiser financial regulators who kept the lending bubbles and fake investments from coming into existence in the first place, then we can also assume that stopped the Great Recession from happening, in which case Kurzweil’s prediction would be 100% right.) Once we make that adjustment, then we see that economic growth for the time period from 1998 – December 2008 was roughly the same as the growth from January 2009 – December 2019.

“The vast majority of transactions include a simulated person, featuring a realistic animated personality and two-way voice communication with high-quality natural-language understanding.”

WRONG

“Simulated people” of this sort are used in almost no transactions. The majority of transactions are still done face-to-face, and between two humans only. While online transactions are getting more common, the nature of those transactions is much simpler than the prediction described: a buyer finds an item he wants on a retailer’s internet site, clicks a “Buy” button, and then inputs his address and method of payment (these data are often saved to the buyer’s computing device and are automatically uploaded to save time). It’s entirely text- and button-based, and is simpler, faster, and better than the inefficient-sounding interaction with a talking video simulacrum of a shopkeeper.

As with the failure of video calls to become more widespread, this development indicates that humans often prefer technology that is simple and fast to use over technology that is complex and more involving to use, even if the latter more closely approximates a traditional human-to-human interaction. The popularity of text messaging further supports this observation.

“Often, there is no human involved, as a human may have his or her automated personal assistant conduct transactions on his or her behalf with other automated personalities. In this case, the assistants skip the natural language and communicate directly by exchanging appropriate knowledge structures.”

MOSTLY WRONG

The only instances in which average people entrust their personal computing devices to automatically buy things on their behalf involve stock trading. Even small-time traders can use automated trading systems and customize them with “stops” that buy or sell preset quantities of specific stocks once the share price reaches prespecified levels. Those stock trades only involve computer programs “talking” to each other–one on behalf of the seller and the other on behalf of the buyer. Only a small minority of people actively trade stocks.

“Household robots for performing cleaning and other chores are now ubiquitous and reliable.”

PARTLY RIGHT

Small vacuum cleaner robots are affordable, reliable, clean carpets well, and are common in rich countries (though it still seems like fewer than 10% of U.S. households have one). Several companies make them, and highly rated models range in price from $150 – $250. Robot “mops,” which look nearly identical to their vacuum cleaning cousins, but use rotating pads and squirts of hot water to clean hard floors, also exist, but are more recent inventions and are far rarer. I’ve never seen one in use and don’t know anyone who owns one.

The iRobot Roomba 960 is a highly rated robot vacuum cleaner.

No other types of household robots exist in anything but token numbers, meaning the part of the prediction that says “and other chores” is wrong. Furthermore, it’s wrong to say that the household robots we do have in 2019 are “ubiquitous,” as that word means “existing or being everywhere at the same time : constantly encountered : WIDESPREAD,” and vacuum and mop robots clearly are not any of those. Instead, they are “common,” meaning people are used to seeing them, even if they are not seen every day or even every month.

“Automated driving systems have been found to be highly reliable and have now been installed in nearly all roads. While humans are still allowed to drive on local roads (although not on highways), the automated driving systems are always engaged and are ready to take control when necessary to prevent accidents.”

WRONG*

The “automated driving systems” were mentioned in the “2009” chapter of predictions, and are described there as being networks of stationary road sensors that monitor road conditions and traffic, and transmit instructions to car computers, allowing the vehicles to drive safely and efficiently without human help. These kinds of roadway sensor networks have not been installed anywhere in the world. Moreover, no public roads are closed to human-driven vehicles and only open to autonomous vehicles.

Newer cars come with many types of advanced safety features that are “always engaged,” such as blind spot sensors, driver attention monitors, forward-collision warning sensors, lane-departure warning systems, and pedestrian detection systems. However, having those devices isn’t mandatory, and they don’t override the human driver’s inputs–they merely warn the driver of problems. Automated emergency braking systems, which use front-facing cameras and radars to detect imminent collisions and apply the brakes if the human driver fails to do so, are the only safety systems that “are ready to take control when necessary to prevent accidents.” They are not common now, but will become mandatory in the U.S. starting in 2022.

*While the roadway sensor network wasn’t built as Kurzweil foresaw, it turns out it wasn’t necessary. By the end of 2019, self-driving car technology had reached impressive heights, with the most advanced vehicles being capable of of “Level 3” autonomy, meaning they could undertake long, complex road trips without problems or human assistance (however, out of an abundance of caution, the manufacturers of these cars built in features requiring the human drivers to clutch the steering wheels and to keep their eyes on the road while the autopilot modes were active). Moreover, this could be done without the help of any sensors emplaced along the highways. The GPS network has proven itself an accurate source of real-time location data for autonomous cars, obviating the need to build expensive new infrastructure paralleling the roads.

In other words, while Kurzweil got several important details wrong, the overall state of self-driving car technology in 2019 only fell a little short of what he expected.

“Efficient personal flying vehicles using microflaps have been demonstrated and are primarily computer controlled.”

UNCLEAR (but probably WRONG)

The vagueness of this prediction’s wording makes it impossible to evaluate. What does “efficient” refer to? Fuel consumption, speed with which the vehicle transports people, or some other quality? Regardless of the chosen metric, how well must it perform to be considered “efficient”? The personal flying vehicles are supposed to be efficient compared to what?

A man on a flying skateboard participated in France’s 2019 Bastille Day military parade. The device counts as a “personal flying vehicle,” but it is impractical and very dangerous to use. It can travel about five miles in 10 minutes on one full tank of fuel, and can take off and land almost anywhere. Is it “efficient”?

What is a “personal flying vehicle”? A flying car, which is capable of flight through the air and horizonal movement over roads, or a vehicle that is capable of flight only, like a small helicopter, autogyro, jetpack, or flying skateboard?

But even if we had answers to those questions, it wouldn’t matter much since “have been demonstrated” is an escape hatch allowing Kurzweil to claim at least some measure of correctness on this prediction since it allows the prediction to be true if just two prototypes of personal flying vehicles have been built and tested in a lab. “Are widespread” or “Are routinely used by at least 1% of the population” would have been meaningful statements that would have made it possible to assess the prediction’s accuracy. “Have been demonstrated” sets the bar so low that it’s almost impossible to be wrong.

Diagram showing what a “Gurney flap” / “microflap” is.

At least the prediction contains one, well-defined term: “microflaps.” These are small, skinny control surfaces found on some aircraft. They are fixed in one position, and in that configuration are commonly called “Gurney flaps,” but experiments have also been done with moveable microflaps. While useful for some types of aircraft, Gurney flaps are not essential, and moveable microflaps have not been incorporated into any mass-produced aircraft designs.

“There are very few transportation accidents.”

WRONG

Tens of millions of serious vehicle accidents happen in the world every year, and road accidents killed 1.35 million people worldwide in 2016, the last year for which good statistics are available. Globally, the per capita death rate from vehicle accidents has changed little since 2000, shortly after the book was published, and it has been the tenth most common cause of death for the 2000 – 2016 time period.

In the U.S., over 40,000 people died due to transportation accidents in 2017, the last year for which good statistics are available.

“People are beginning to have relationships with automated personalities as companions, teachers, caretakers, and lovers.”

WRONG

As I noted earlier in this analysis, even the best “automated personalities” like Alexa, Siri, and Cortana are clearly machines and are not likeable or relatable to humans at any emotional level. Ironically, by 2019, one of the great socials ills in the Western world was the extent to which personal technologies have isolated people and made them unhappy, and it was coupled with a growing appreciation of how important regular interpersonal interaction was to human mental health.

“An undercurrent of concern is developing with regard to the influence of machine intelligence. There continue to be differences between human and machine intelligence, but the advantages of human intelligence are becoming more difficult to identify and articulate. Computer intelligence is thoroughly interwoven into the mechanisms of civilization and is designed to be outwardly subservient to apparent human control. On the one hand, human transactions and decisions require by law a human agent of responsibility, even if fully initiated by machine intelligence. On the other hand, few decisions are made without significant involvement and consultation with machine-based intelligence.”

MOSTLY RIGHT

Technological advances have moved concerns over the influence of machine intelligence to the fore in developed countries. In many domains of skill previously considered hallmarks of intelligent thinking, such as driving vehicles, recognizing images and faces, analyzing data, writing short documents, and even diagnosing diseases, machines had achieved human levels of performance by the end of 2019. And in a few niche tasks, such as playing Go, chess, or poker, machines were superhuman. Eroded human dominance in these and other fields did indeed force philosophers and scientists to grapple with the meaning of “intelligence” and “creativity,” and made it harder yet more important to define how human thinking was still special and useful.

While the prospect of artificial general intelligence was still viewed with skepticism, there was no real doubt among experts and laypeople in 2019 that task-specific AIs and robots would continue improving, and without any clear upper limit to their performance. This made technological unemployment and the solutions for it frequent topics of public discussion across the developed world. In 2019, one of the candidates for the upcoming U.S. Presidential election, Andrew Yang, even made these issues central to his political platform.

If “algorithms” is another name for “computer intelligence” in the prediction’s text, then yes, it is woven into the mechanisms of civilization and is ostensibly under human control, but in fact drives human thinking and behavior. To the latter point, great alarm has been raised over how algorithms used by social media companies and advertisers affect sociopolitical beliefs (particularly, conspiracy thinking and closedmindedness), spending decisions, and mental health.

Human transactions and decisions still require a “human agent of responsibility”: Autonomous cars aren’t allowed to drive unless a human is in the driver’s seat, human beings ultimately own and trade (or authorize the trading of) all assets, and no military lets its autonomous fighting machines kill people without orders from a human. The only part of the prediction that seems wrong is the last sentence. Probably most decisions that humans make are done without consulting a “machine-based intelligence.” Consider that most daily purchases (e.g. – where to go for lunch, where to get gas, whether and how to pay a utility bill) involve little thought or analysis. A frighteningly large share of investment choices are also made instinctively, with benefit of little or no research. However, it should be noted that one area of human decision-making, dating, has become much more data-driven, and it was common in 2019 for people to use sorting algorithms, personality test results, and other filters to choose potential mates.

“Public and private spaces are routinely monitored by machine intelligence to prevent interpersonal violence.”

MOSTLY RIGHT

Gunfire detection systems, which are comprised of networks of microphones emplaced across an area and which use machine intelligence to recognize the sounds of gunshots and to triangulate their origins, were emplaced in over 100 cities at the end of 2019. The dominant company in this niche industry, “ShotSpotter,” used human analysts to review its systems’ results before forwarding alerts to local police departments, so the systems were not truly automated, but nonetheless they made heavy use of machine intelligence.

Automated license plate reader cameras, which are commonly mounted next to roads or on police cars, also use machine intelligence and are widespread. The technology has definitely reduced violent crime, as it has allowed police to track down stolen vehicles and cars belonging to violent criminals faster than would have otherwise been possible.

In some countries, surveillance cameras with facial recognition technology monitor many public spaces. The cameras compare the people they see to mugshots of criminals, and alert the local police whenever a wanted person is seen. China is probably the world leader in facial recognition surveillance, and in a famous 2018 case, it used the technology to find one criminal among 60,000 people who attended a concert in Nanchang.

At the end of 2019, several organizations were researching ways to use machine learning for real-time recognition of violent behavior in surveillance camera feeds, but the systems were not accurate enough for commercial use.

“People attempt to protect their privacy with near-unbreakable encryption technologies, but privacy continues to be a major political and social issue with each individual’s practically every move stored in a database somewhere.”

RIGHT

In 2013, National Security Agency (NSA) analyst Edward Snowden leaked a massive number of secret documents, revealing the true extent of his employer’s global electronic surveillance. The world was shocked to learn that the NSA was routinely tracking the locations and cell phone call traffic of millions of people, and gathering enormous volumes of data from personal emails, internet browsing histories, and other electronic communications by forcing private telecom and internet companies (e.g. – Verizon, Google, Apple) to let it secretly search through their databases. Together with British intelligence, the NSA has the tools to spy on the electronic devices and internet usage of almost anyone on Earth.

Edward Snowden

Snowden also revealed that the NSA unsurprisingly had sophisticated means for cracking encrypted communications, which it routinely deployed against people it was spying on, but that even its capabilities had limits. Because some commercially available encryption tools were too time-consuming or too technically challenging to crack, the NSA secretly pressured software companies and computing hardware manufacturers to install “backdoors” in their products, which would allow the Agency to bypass any encryption their owners implemented.

During the 2010s, big tech titans like Facebook, Google, Amazon, and Apple also came under major scrutiny for quietly gathering vast amounts of personal data from their users, and reselling it to third parties to make hundreds of billions of dollars. The decade also saw many epic thefts of sensitive personal data from corporate and government databases, affecting hundreds of millions of people worldwide.

With these events in mind, it’s quite true that concerns over digital privacy and confidentiality of personal data have become “major political and social issues,” and that there’s growing displeasure at the fact that “each individual’s practically every move stored in a database somewhere.” The response has been strongest in the European Union, which, in 2018, enacted the most stringent and impactful law to protect the digital rights of individuals–the “General Data Protection Regulation” (GDPR).

Widespread awareness of secret government surveillance programs and of the risk of personal electronic messages being made public thanks to hacks have also bolstered interest in commercial encryption. “Whatsapp” is a common text messaging app with built-in end-to-end encryption. It was invented in 2016 and had 1.5 billion users by 2019. “Tor” is a web browser with built-in encryption that became relatively common during the 2010s after it was learned even the NSA couldn’t spy on people who used it. Additionally, virtual private networks (VPNs), which provide an intermediate level of data privacy protection for little expense and hassle, are in common use.

“The existence of the human underclass continues as an issue. While there is sufficient prosperity to provide basic necessities (secure housing and food, among others) without significant strain to the economy, old controversies persist regarding issues of responsibility and opportunity.”

RIGHT

It’s unclear whether this prediction pertained to the U.S., to rich countries in aggregate, or to the world as a whole, and “underclass” is not defined, so we can’t say whether it refers only to desperately poor people who are literally starving, or to people who are better off than that but still under major daily stress due to lack of money. Whatever the case, by any reasonable definition, there is an “underclass” of people in almost every country.

In the U.S. and other rich countries, welfare states provide even the poorest people with access to housing, food, and other needs, though there are still those who go without because severe mental illness and/or drug addiction keep them stuck in homeless lifestyles and render them too behaviorally disorganized to apply for government help or to be admitted into free group housing. Some people also live in destitution in rich countries because they are illegal immigrants or fugitives with arrest warrants, and contacting the authorities for welfare assistance would lead to their detection and imprisonment. Political controversy over the causes of and solutions to extreme poverty continues to rage in rich countries, and the fault line usually is about “responsibility” and “opportunity.”

The fact that poor people are likelier to be obese in most OECD countries and that starvation is practically nonexistent there shows that the market, state, and private charity have collectively met the caloric needs of even the poorest people in the rich world, and without straining national economies enough to halt growth. Indeed, across the world writ large, obesity-related health problems have become much more common and more expensive than problems caused by malnutrition. The human race is not financially struggling to feed itself, and would derive net economic benefits from reallocating calories from obese people to people living in the remaining pockets of land (such as war-torn Syria) where malnutrition is still a problem.

There’s also a growing body of evidence from the U.S. and Canada that providing free apartments to homeless people (the “housing first” strategy) might actually save taxpayer money, since removing those people from unsafe and unhealthy street lifestyles would make them less likely to need expensive emergency services and hospitalizations. The issue needs to be studied in further depth before we can reach a firm conclusion, but it’s probably the case that rich countries could give free, basic housing to their homeless without significant additional strain to their economies once the aforementioned types of savings to other government services are accounted for.

“This issue is complicated by the growing component of most employment’s being concerned with the employee’s own learning and skill acquisition. In other words, the difference between those ‘productively’ engaged and those who are not is not always clear.”

PARTLY RIGHT

As I wrote earlier, Kurzweil’s prediction that people in 2019 would be spending most of their time at work acquiring new skills and knowledge to keep up with new technologies was wrong. The vast majority of people have predictable jobs where they do the same sets of tasks over and over. On-the-job training and mandatory refresher training is very common, but most workers devote small shares of their time to them, and the fraction of time spent doing workplace training doesn’t seem significantly different from what it was when the book was published.

From years of personal experience working in large organizations, I can say that it’s common for people to take workplace training courses or work-sponsored night classes (either voluntarily or because their organizations require it) that provide few or no skills or items of knowledge that are relevant to their jobs. Employees who are undergoing these non-value-added training programs have the superficial appearance of being “productively engaged” even if the effort is really a waste, or so inefficient that the training course could have been 90% shorter if taught better. But again, this doesn’t seem different from how things were in past decades.

This means the prediction was partly right, but also of questionable significance in the first place.

“Virtual artists in all of the arts are emerging and are taken seriously. These cybernetic visual artists, musicians, and authors are usually affiliated with humans or organizations (which in turn are comprised of collaborations of humans and machines) that have contributed to their knowledge base and techniques. However, interest in the output of these creative machines has gone beyond the mere novelty of machines being creative.”

MOSTLY RIGHT

The “Deep Dream” computer program made this surrealist portrait.

In 2019, computers could indeed produce paintings, songs, and poetry with human levels of artistry and skill. For example, Google’s “Deep Dream” program is a neural network that can transform almost any image into something resembling a surrealist painting. Deep Dream’s products captured international media attention for how striking, and in many cases, disturbing, they looked.

“Portrait of Edmond de Belamy”

In 2018, a different computer program produced a painting–“Portrait of Edmond de Belamy”–that fetched a record-breaking $423,500 at an art auction. The program was a generative adversarial network (GAN) designed and operated by a small team of people who described themselves as “a collective of researchers, artists, and friends, working with the latest models of deep learning to explore the creative potential of artificial intelligence.” That seems to fulfill the second part of the prediction (“These cybernetic visual artists, musicians, and authors are usually affiliated with humans or organizations (which in turn are comprised of collaborations of humans and machines) that have contributed to their knowledge base and techniques.”)

Machines are also respectable songwriters, and are able to produce original songs based on the styles of human artists. For example, a computer program called “EMMY” (an acronym for “Experiments in Musical Intelligence”) is able to make instrumental musical scores that accurately mimic those of famous human musicians, like Bach and Mozart (fittingly, Ray Kurzweil made a simpler computer program that did essentially the same thing when he was a teenager). Listen to a few of the songs and judge their quality for yourself:

Computer scientists at Google have built a neural network called “JukeBox” that is even more advanced than EMMY, and which can produce songs that are complete with simulated human lyrics. While the words don’t always make sense and there’s much room for improvement, most humans have no creative musical talent at all and couldn’t do any better, and the quality, sophistication and coherence of the entirely machine-generated songs is very impressive (audio samples are available online).

Also at Google, an artificial intelligence program called the “Generative Pretrained Transformer” was invented to understand and write text. In 2019, the second version of the program, “GPT-2,” made its debut, and showed impressive skill writing poetry, short news articles and other content, with minimal prompting from humans (it was also able to correctly answer basic questions about text it was shown and to summarize the key points, demonstrating some degree of reading comprehension). While often clunky and sometimes nonsensical, the passages that GPT-2 generates nonetheless fall within the “human range” of writing ability since they are very hard to tell apart from the writings of a child, or of an adult with a mental or cognitive disability. Some of the machine-written passages also read like choppy translations of text that was well-written in whatever its original language was.

Much of GPT-2’s poetry is also as good as–or, as bad as–that written by its human counterparts:

And they have seen the last light fail;
By day they kneel and pray;
But, still they turn and gaze upon
The face of God to-day.

And God is touched and weeps anew
For the lost souls around;
And sorrow turns their pale and blue,
And comfort is not found.

They have not mourned in the world of men,
But their hearts beat fast and sore,
And their eyes are filled with grief again,
And they cease to shed no tear.

And the old men stand at the bridge in tears,
And the old men stand and groan,
And the gaunt grey keepers by the cross
And the spent men hold the crown.

And their eyes are filled with tears,
And their staves are full of woe.
And no light brings them any cheer,
For the Lord of all is dead

In conclusion, the prediction is right that there were “virtual artists” in 2019 in multiple fields of artistic endeavor. Their works were of high enough quality and “humanness” to be of interest for reasons other than the novelties of their origins. They’ve raised serious questions among humans about the nature of creative thinking, and whether machines are capable or soon will be. Finally, the virtual artists were “affiliated with” or, more accurately, owned and controlled by groups of humans.

“Visual, musical, and literary art created by human artists typically involve a collaboration between human and machine intelligence.”

UNCLEAR

It’s impossible to assess this prediction’s veracity because the meanings of “collaboration” and “machine intelligence” are undefined (also, note that the phrase “virtual artists” is not used in this prediction). If I use an Instagram filter to transform one of the mundane photos I took with my camera phone into a moody, sepia-toned, artistic-looking image, does the filter’s algorithm count as a “machine intelligence”? Does my mere use of it, which involves pushing a button on my smartphone, count as a “collaboration” with it?

Likewise, do recording studios and amateur musicians “collaborate with machine intelligence” when they use computers for post-production editing of their songs? When you consider how thoroughly computer programs like “Auto-Tune” can transform human vocals, it’s hard to argue that such programs don’t possess “machine intelligence.” This instructional video shows how it can make any mediocre singer’s voice sound melodious, and raises the question of how “good” the most famous singers of 2019 actually are: Can Anyone Sing With Autotune?! (Real Voice Vs. Autotune)

If I type a short story or fictional novel on my computer, and the word processing program points out spelling and usage mistakes, and even makes sophisticated recommendations for improving my writing style and grammar, am I collaborating with machine intelligence? Even free word processing programs have automatic spelling checkers, and affordable apps like Microsoft Word, Grammarly and ProWritingAid have all of the more advanced functions, meaning it’s fair to assume that most fiction writers interact with “machine intelligence” in the course of their work, or at least have the option to. Microsoft Word also has a “thesaurus” feature that lets users easily alter the wordings of their stories.

“The type of artistic and entertainment product in greatest demand (as measured by revenue generated) continues to be virtual-experience software, which ranges from simulations of ‘real’ experiences to abstract environments with little or no corollary in the physical world.”

WRONG

Analyzing this prediction first requires us to know what “virtual-experience software” refers to. As indicated by the phrase “continues to be,” Kurzweil used it earlier, specifically, in the “2009” chapter where he issued predictions for that year. There, he indicates that “virtual-experience software” is another name for “virtual reality software.” With that in mind, the prediction is wrong. As I showed previously in this analysis, the VR industry and its technology didn’t progress nearly as fast as Kurzweil forecast.

That said, the video game industry’s revenues exceed those of nearly all other art and entertainment industries. Globally for 2019, video games generated about $152.1 billion in revenue, compared to $41.7 billion for the film. The music industry’s 2018 figures were $19.1 billion. Only the sports industry, whose global revenues were between $480 billion and $620 billion, was bigger than video games (note that the two cross over in the form of “E-Sports”).

Revenues from virtual reality games totaled $1.2 billion in 2019, meaning 99% of the video game industry’s revenues that year DID NOT come from “virtual-experience software.” The overwhelming majority of video games were viewed on flat TV screens and monitors that display 2D images only. However, the graphics, sound effects, gameplay dynamics, and plots have become so high quality that even these games can feel immersive, as if you’re actually there in the simulated environment. While they don’t meet the technical definition of being “virtual reality” games, some of them are so engrossing that they might as well be.

“The primary threat to [national] security comes from small groups combining human and machine intelligence using unbreakable encrypted communication. These include (1) disruptions to public information channels using software viruses, and (2) bioengineered disease agents.”

MOSTLY WRONG

Terrorism, cyberterrorism, and cyberwarfare were serious and growing problems in 2019, but it isn’t accurate to say they were the “primary” threats to the national security of any country. Consider that the U.S., the world’s dominant and most advanced military power, spent $16.6 billion on cybersecurity in FY 2019–half of which went to its military and the other half to its civilian government agencies. As enormous as that sum is, it’s only a tiny fraction of America’s overall defense spending that fiscal year, which was a $726.2 billion “base budget,” plus an extra $77 billion for “overseas contingency operations,” which is another name for combat and nation-building in Iraq, Afghanistan, and to a lesser extent, in Syria.

In other words, the world’s greatest military power only allocates 2% of its defense-related spending to cybersecurity. That means hackers are clearly not considered to be “the primary threat” to U.S. national security. There’s also no reason to assume that the share is much different in other countries, so it’s fair to conclude that it is not the primary threat to international security, either.

Also consider that the U.S. spent about $33.6 billion on its nuclear weapons forces in FY2019. Nuclear weapon arsenals exist to deter and defeat aggression from powerful, hostile countries, and the weapons are unsuited for use against terrorists or computer hackers. If spending provides any indication of priorities, then the U.S. government considers traditional interstate warfare to be twice as big of a threat as cyberattackers. In fact, most of military spending and training in the U.S. and all other countries is still devoted to preparing for traditional warfare between nation-states, as evidenced by things like the huge numbers of tanks, air-to-air fighter planes, attack subs, and ballistic missiles still in global arsenals, and time spent practicing for large battles between organized foes.

“Small groups” of terrorists inflict disproportionate amounts of damage against society (terrorists killed 14,300 people across the world in 2017), as do cyberwarfare and cyberterrorism, but the numbers don’t bear out the contention that they are the “primary” threats to global security.

Whether “bioengineered disease agents” are the primary (inter)national security threat is more debatable. Aside from the 2001 Anthrax Attacks (which only killed five people, but nonetheless bore some testament to Kurzweil’s assessment of bioterrorism’s potential threat), there have been no known releases of biological weapons. However, the COVID-19 pandemic, which started in late 2019, has caused human and economic damage comparable to the World Wars, and has highlighted the world’s frightening vulnerability to novel infectious diseases. This has not gone unnoticed by terrorists and crazed individuals, and it could easily inspire some of them to make biological weapons, perhaps by using COVID-19 as a template. Modifications that made it more lethal and able to evade the early vaccines would be devastating to the world. Samples of unmodified COVID-19 could also be employed for biowarfare if disseminated in crowded places at some point in the future, when herd immunity has weakened.

Just because the general public, and even most military planners, don’t appreciate how dire bioterrorism’s threat is doesn’t mean it is not, in fact, the primary threat to international security. In 2030, we might look back at the carnage caused by the “COVID-23 Attack” and shake our collective heads at our failure to learn from the COVID-19 pandemic a few years earlier and prepare while we had time.

“Most flying weapons are tiny–some as small as insects–with microscopic flying weapons being researched.”

UNCLEAR

What counts as a “flying weapon”? Aircraft designed for unlimited reuse like planes and helicopters, or single-use flying munitions like missiles, or both? Should military aircraft that are unsuited for combat (e.g. – jet trainers, cargo planes, scout helicopters, refueling tankers) be counted as flying weapons? They fly, they often go into combat environments where they might be attacked, but they don’t carry weapons. This is important because it affects how we calculate what “most”/”the majority” is.

What counts as “tiny”? The prediction’s wording sets “insect” size as the bottom limit of the “tiny” size range, but sets no upper bound to how big a flying weapon can be and still be considered “tiny.” It’s up to us to do it.

A “Phantom” ultralight plane. Is it fair to call this “tiny”?

“Ultralights” are a legally recognized category of aircraft in the U.S. that weigh less than 254 lbs unloaded. Most people would take one look at such an aircraft and consider it to be terrifyingly small to fly in, and would describe it as “tiny.” Military aviators probably would as well: The Saab Gripen is one of the smallest modern fighter planes and still weighs 14,991 lbs unloaded, and each of the U.S. military’s MH-6 light observation helicopters weigh 1,591 lbs unloaded (the diminutive Smart Car Fortwo weighs about 2,050 lbs, unloaded).

With those relative sizes in mind, let’s accept the Phantom X1 ultralight plane as the upper bound of “tiny.” It weighs 250 lbs unloaded, is 17 feet long and has a 28 foot wingspan, so a “flying weapon” counts as being “tiny” if it is smaller than that.

If we also count missiles as “flying weapons,” then the prediction is right since most missiles are smaller than the Phantom X1, and the number of missiles far exceeds the number of “non-tiny” combat aircraft. A Hellfire missile, which is fired by an aircraft and homes in on a ground target, is 100 lbs and 5 feet long. A Stinger missile, which does the opposite (launched from the ground and blows up aircraft) is even smaller. Air-to-air Sidewinder missiles also meet our “tiny” classification. In 2019, the U.S. Air Force had 5,182 manned aircraft and wanted to buy 10,264 new guided missiles to bolster whatever stocks of missiles it already had in its inventory. There’s no reason to think the ratio is different for the other branches of the U.S. military (i.e. – the Navy probably has several guided missiles for every one of its carrier-borne aircraft), or that it is different in other countries’ armed forces. Under these criteria, we can say that most flying weapons are tiny.

The RQ-11B Raven drone could be considered a “tiny flying weapon.”

If we don’t count missiles as “flying weapons” and only count “tiny” reusable UAVs, then the prediction is wrong. The U.S. military has several types of these, including the “Scan Eagle,” RQ-11B “Raven,” RQ-12A “Wasp,” RQ-20 “Puma,” RQ-21 “Blackjack,” and the insect-sized PD-100 Black Hornet. Up-to-date numbers of how many of these aircraft the U.S. has in its military inventory are not available (partly because they are classified), but the data I’ve found suggest they number in the hundreds of units. In contrast, the U.S. military has over 12,000 manned aircraft.

At 100mm long and 120mm wide along its main rotor, the PD-100 drone is as small as a large dragonfly.

The last part of the prediction, that “microscopic” flying weapons would be the subject of research by 2019, seems to be wrong. The smallest flying drones in existence at that time were about as big as bees, which are not microscopic since we can see them with the naked eye. Moreover, I couldn’t find any scientific papers about microscopic flying machines, indicating that no one is actually researching them. However, since such devices would have clear espionage and military uses, it’s possible that the research existed in 2019, but was classified. If, at some point in the future, some government announces that its secret military labs had made impractical, proof-of-concept-only microscopic flying machines as early as 2019, then Kurzweil will be able to say he was right.

Anyway, the deep problems with this prediction’s wording have been made clear. Something like “Most aircraft in the military’s inventory are small and autonomous, with some being no bigger than flying insects” would have been much easier to evaluate.

“Many of the life processes encoded in the human genome, which was deciphered more than ten years earlier, are now largely understood, along with the information-processing mechanisms underlying aging and degenerative conditions such as cancer and heart disease.”

PARTLY RIGHT

The words “many” and “largely” are subjective, and provide Kurzweil with another escape hatch against a critical analysis of this prediction’s accuracy. This problem has occurred so many times up to now that I won’t belabor you with further explanation.

The human genome was indeed “deciphered” more than ten years before 2019, in the sense that scientists discovered how many genes there were and where they were physically located on each chromosome. To be specific, this happened in 2003, when the Human Genome Project published its first, fully sequenced human genome. Thanks to this work, the number of genetic disorders whose associated defective genes are known to science rose from 60 to 2,200. In the years since Human Genome Project finished, that climbed further, to 5,000 genetic disorders.

The cost of sequencing a human genome sharply dropped, making it possible to do genome-wide association studies, and for middle income people to have their personal genomes sequenced.

However, we still don’t know what most of our genes do, or which trait(s) each one codes for, so in an important sense, the human genome has not been deciphered. Since 1998, we’ve learned that human genetics is more complicated than suspected, and that it’s rare for a disease or a physical trait to be caused by only one gene. Rather, each trait (such as height) and disease risk is typically influenced by the summed, small effects of many different genes. Genome-wide association studies (GWAS), which can measure the subtle effects of multiple genes at once and connect them to the traits they code for, are powerful new tools for understanding human genetics. We also now know that epigenetics and environmental factors have large roles determining how a human being’s genes are expressed and how he or she develops in biological but non-genetic ways. In short just understanding what genes themselves do is not enough to understand human development or disease susceptibility.

Returning to the text of the prediction, the meaning of “information-processing mechanisms” probably refers to the ways that human cells gather information about their external surroundings and internal state, and adaptively respond to it. An intricate network of organic machinery made of proteins, fat structures, RNA, and other molecules handles this task, and works hand-in-hand with the DNA “blueprints” stored in the cell’s nucleus. It is now known that defects in this cellular-level machinery can lead to health problems like cancer and heart disease, and advances have been made uncovering the exact mechanics by which those defects cause disease. For example, in the last few years, we discovered how a mutation in the “SF3B1” gene raises the risk of a cell developing cancer. While the link between mutations to that gene and heightened cancer risk had long been known, it wasn’t until the advent of CRISPR that we found out exactly how the cellular machinery was malfunctioning, in turn raising hopes of developing a treatment.

The aging process is more well-understood than ever, and is known to have many separate causes. While most aging is rooted in genetics and is hence inevitable, the speed at which a cell or organism ages can be affected at the margins by how much “stress” it experiences. That stress can come in the form of exposure to extreme temperatures, physical exertion, and ingestion of specific chemicals like oxidants. Over the last 10 years, considerable progress has been made uncovering exactly how those and other stressors affect cellular machinery in ways that change how fast the cell ages. This has also shed light on a phenomenon called “hormesis,” in which mild levels of stress actually make cells healthier and slow their aging.

“The expected life span…[is now] over one hundred.”

WRONG

The expected life span for an average American born in 2018 was 76.2 years for males and 81.2 years for females. Japan had the highest figures that year out of all countries, at 81.25 years for men and 87.32 years for women.

“There is increasing recognition of the danger of the widespread availability of bioengineering technology. The means exist for anyone with the level of knowledge and equipment available to a typical graduate student to create disease agents with enormous destructive potential.”

WRONG

Among the general public and national security experts, there has been no upward trend in how urgently the biological weapons threat is viewed. The issue received a large amount of attention following the 2001 Anthrax Attacks, but since then has receded from view, while traditional concerns about terrorism (involving the use of conventional weapons) and interstate conflict have returned to the forefront. Anecdotally, cyberwarfare and hacking by nonstate actors clearly got more attention than biowarfare in 2019, even though the latter probably has much greater destructive potential.

Top national security experts in the U.S. also assigned biological weapons low priority, as evidenced in the 2019 Worldwide Threat Assessment, a collaborative document written by the chiefs of the various U.S. intelligence agencies. The 42-page report only mentions “biological weapons/warfare” twice. By contrast, “migration/migrants/immigration” appears 11 times, “nuclear weapon” eight times, and “ISIS” 29 times.

As I stated earlier, the damage wrought by the COVID-19 pandemic could (and should) raise the world’s appreciation of the biowarfare / bioterrorism threat…or it could not. Sadly, only a successful and highly destructive bioweapon attack is guaranteed to make the world treat it with the seriousness it deserves.

Thanks to better and cheaper lab technologies (notably, CRISPR), making a biological weapon is easier than ever. However, it’s unclear if the “bar” has gotten low enough for a graduate student to do it. Making a pathogen in a lab that has the qualities necessary for a biological weapon, verifying its effects, purifying it, creating a delivery system for it, and disseminating it–all without being caught before completion or inadvertently infecting yourself with it before the final step–is much harder than hysterical news articles and self-interested talking head “experts” suggest. From research I did several years ago, I concluded that it is within the means of mid-tier adversaries like the North Korean government to create biological weapons, but doing so would still require a team of people from various technical backgrounds and with levels of expertise exceeding a typical graduate student, years of work, and millions of dollars.

“That this potential is offset to some extent by comparable gains in bioengineered antiviral treatments constitutes an uneasy balance, and is a major focus of international security agencies.”

RIGHT

The development of several vaccines against COVID-19 within months of that disease’s emergence showed how quickly global health authorities can develop antiviral treatments, given enough money and cooperation from government regulators. Pfizer’s successful vaccine, which is the first in history to make use of mRNA, also represents a major improvement to vaccine technology that has occurred since the book’s publication. Indeed, the lessons learned from developing the COVID-19 vaccines could lead to lasting improvements in the field of vaccine research, saving millions of people in the future who would have otherwise died from infectious diseases, and giving governments better tools for mitigating any bioweapon attacks.

Put simply, the prediction is right. Technology has made it easier to make biological weapons, but also easier to make cures for those diseases.

“Computerized health monitors built into watches, jewelry, and clothing which diagnose both acute and chronic health conditions are widely used. In addition to diagnosis, these monitors provide a range of remedial recommendations and interventions.”

MOSTLY RIGHT

Many smart watches have health monitoring features, and though some of them are government-approved health devices, they aren’t considered accurate enough to “diagnose” health conditions. Rather, their role is to detect and alert wearers to signs of potential health problems, whereupon the latter consult a medical professionals with more advanced machinery and receive a diagnosis.

The Apple Watch Series 5

By the end of 2019, common smart watches such as the “Samsung Galaxy Watch Active 2,” and the “Apple Watch Series 4 and 5” had FDA-approved electrocardiogram (ECG) features that were considered accurate enough to reliably detect irregular heartbeats in wearers. Out of 400,000 Apple Watch owners subject to such monitoring, 2,000 received alerts in 2018 from their devices of possible heartbeat problems. Fifty-seven percent of people in that subset sought medical help upon getting alerts from their watches, which is proof that the devices affect health care decisions, and ultimately, 84% of people in the subset were confirmed to have atrial fibrillation.

The Apple Watches also have “hard fall” detection features, which use accelerometers to recognize when their wearers suddenly fall down and then don’t move. The devices can be easily programmed to automatically call local emergency services in such cases, and there have been recent case where this probably saved the lives of injured people (does suffering a serious injury due to a fall count as an “acute health condition” per the prediction’s text?).

A few smart watches available in late 2019, including the “Garmin Forerunner 245,” also had built-in pulse oximeters, but none were FDA-approved, and their accuracy was questionable. Several tech companies were also actively developing blood pressure monitoring features for their devices, but only the “HeartGuide” watch, made by a small company called “Omron Healthcare,” was commercially available and had received any type of official medical sanction. Frequent, automated monitoring and analysis of blood oxygen levels and blood pressure would be of great benefit to millions of people.

Smartphones also had some health tracking capabilities. The commonest and most useful were physical activity monitoring apps, which count the number of steps their owners take and how much distance they traverse during a jog or hike. The devices are reasonably accurate, and are typically strapped to the wearer’s upper arm or waist if they are jogging, or kept in a pocket when doing other types of activity. Having a smartphone in your pocket isn’t literally the same as having it “built into [your] clothing” as the prediction says, but it’s close enough to satisfy the spirit of the prediction. In fact, being able to easily insert and remove a device into any article of clothing with a pocket is better than having a device integrated into the clothing since it allows for much more flexibility of attire–if you want to try out a new jogging route and also want to measure how long it is, you don’t have to remember to wear your one and only T-shirt with the built-in activity monitoring devices.

Millions of people use smart watches with health tracking features and smartphones with activity detection apps, which counts as “widely used” by any reasonable definition. However, no items of jewelry with embedded health tracking capabilities were available in 2019, so that part of the prediction is wrong.

“There are prevalent reports of computers passing the Turing Test, although these instances do not meet the criteria (with regard to sophistication of the human judge, the length of time for the interviews, etcetera) established by knowledgeable observers. There is a consensus that computers have not yet passed a valid Turing Test, but there is growing controversy on this point.”

RIGHT

In 2014, a chatbot named “Eugene Goostman” made global headlines by “passing the Turing Test” at an event held at the University of Reading. However, AI experts soon determined it was invalid because the dialog between the human judges and the machine only lasted five minutes. Ray Kurzweil himself even interacted with Eugene Goostman and posted the conversation on his website to show the machine could not correctly answer questions that probe commonsense reasoning and other aspects of intelligent thinking:

Kurzweil: How old are you?
Eugene: I’m a little boy. 13 years old.

Kurzweil: How much is two plus two?
Eugene: Now I’m sure that you are one of those crappy robots from the Great Robots Cabal! And I know your password: 2 + 2=4.0! Now divide by zero and die!!!!

Kurzweil: If I have two marbles in a bowl and I add two more how many marbles are in the bowl now?
Eugene: Not too many. But I can’t tell you the exact number, I forgot it. If I’m not mistaken – you still didn’t tell me where you live. OR it’s a secret?:-)

Kurzweil: I live in the capital of the United States. Do you know where that is?
Eugene: Every nerd knows that the capital of The United States is Washington.

Kurzweil: I live in the capital of the country that put a man on the moon.
Eugene: Well, if you want it, the capital of The United States is Washington.

Kurzweil: I live in the capital of the country that built the great wall.
Eugene: Tell me more about Capital. I like to learn about different places!

In 2018, a Google AI program called “Duplex” also made headlines for “passing the Turing Test” in phone calls where it made restaurant reservations without the human workers on the other end of the line realizing they were talking to a machine. While an impressive technological feat, experts again disagreed with the media’s portrayal of its capabilities, and pointed out that in human-machine interactions weren’t valid Turing Tests because they were too short and focused on a narrow subject of conversation.

“The subjective experience of computer-based intelligence is seriously discussed, although the rights of machine intelligence have not yet entered mainstream debate.”

RIGHT

The prospect of computers becoming intelligent and conscious has been a topic of increasing discussion in the public sphere, and experts treat it with seriousness. A few recent examples of this include:

Those are all thoughtful articles written by experts whose credentials are relevant to the subject of machine consciousness. There are countless more articles, essays, speeches, and panel discussions about it available on the internet.

“Sophia” the robot

Machines, including the most advanced “A.I.s” that existed at the end of 2019, had no legal rights anywhere in the world, except perhaps in two countries: In 2017, the Saudis granted citizenship to an animatronic robot called “Sophia,” and Japan granted a residence permit to a video chatbot named “Shibuya Mirai.” Both of these actions appear to be government publicity stunts that would be nullified if anyone in either country decided to file a lawsuit.

“Machine intelligence is still largely the product of a collaboration between humans and machines, and has been programmed to maintain a subservient relationship to the species that created it.”

RIGHT

Critics often–and rightly–point out that the most impressive “A.I.s” owe their formidable capabilities to the legions of humans who laboriously and judiciously fed them training data, set their parameters, corrected their mistakes, and debugged their codes. For example, image-recognition algorithms are trained by showing them millions of photographs that humans have already organized or attached descriptive metadata to. Thus, the impressive ability of machines to identify what is shown in an image is ultimately the product of human-machine collaboration, with the human contribution playing the bigger role.

Finally, even the smartest and most capable machines can’t turn themselves on without human help, and still have very “brittle” and task-specific capabilities, so they are fundamentally subservient to humans. A more specific example of engineered subservience is seen in autonomous cars, where the computers were smart enough to drive safely by themselves in almost all road conditions, but laws required the vehicles to watch the human in the driver’s seat and stop if he or she wasn’t paying attention to the road and touching the controls.

Links:

  1. Ray Kurzweil’s self-analysis of how accurate his 2009 predictions were: (https://kurzweilai.net/images/How-My-Predictions-Are-Faring.pdf)
  2. The inventor of the first augmented reality contact lenses predicted in 2015 that commercially viable versions of the devices wouldn’t exist for at least 20 more years.
    (https://www.inverse.com/article/31034-augmented-reality-contact-lenses)
  3. In late 2019, a Magic Leap One cost $2,300 – $3,300 and a Hololens was $3,000. 
    https://www.cnn.com/2019/12/10/tech/magic-leap-ar-for-companies/index.html
  4. In 2019, a new Oculus Rift system cost $400 – $500, and a new HTC Vive was $500 – $800.
    (https://www.theverge.com/2019/5/16/18625238/vr-virtual-reality-headsets-oculus-quest-valve-index-htc-vive-nintendo-labo-vr-2019)
  5. In 2018, people across the world bought 259 million new desktop computers, laptops, and “ultramobile” devices (higher-end tablets that have large, detachable keyboards [the Microsoft Surface dominates this category]). These machines are meant to be accessed with traditional keyboard and mouse inputs. Keyboards aren’t dead.
    (https://venturebeat.com/2019/01/10/gartner-and-idc-hp-and-lenovo-shipped-the-most-pcs-in-2018-but-total-numbers-fell/)
  6. Survey data from 2018 about the global usage of “digital personal assistants.” Users speak to their smartphones or smart speakers, mostly to obtain simple information (like weather forecasts) or to have their computers do simple tasks. (https://www.business2community.com/infographics/the-growth-in-usage-of-virtual-digital-assistants-infographic-02056086)
  7. 2019 Pew Survey showing that the overwhelming majority of American adults owned a smartphone or traditional PC. People over age 64 were the least likely to own smartphones.
    (https://www.pewresearch.org/internet/fact-sheet/mobile/)
  8. A 2015 American Community Survey revealed that households headed by people over 64 were the least likely to have smartphones, PCs, or internet access.
    (https://www.census.gov/content/dam/Census/library/publications/2017/acs/acs-37.pdf)
  9. In 2000, 34% of Americans accessed the internet through dial-up modems, and only 3% did so through “broadband” (a catch-all for cable, DSL, and satellite access). Most U.S. internet users were still using dial-up modems that were at most 56k. The remaining 63% didn’t access it at all.
    (http://thetechnews.com/2016/01/03/usa-getting-faster-internet-speeds-but-not-at-the-pace-others-are/)
  10. In 2019, a mid-tier internet service plan in the U.S. granted users download speeds of 30 – 60 Mbps.
    (https://www.pcmag.com/news/state-by-state-the-fastest-and-slowest-us-internet)
  11. 2019 U.S. mobile phone network average speeds were 33.88 Mbps for downloads and 9.75 Mbps for uploads.
    (https://www.speedtest.net/reports/united-states/ )
  12. The Black Friday 2019 circular for Newegg.com featured five models of printers for sale. Only one of them, the Brother HL-L2300D, wasn’t WiFi-capable.
    (https://bestblackfriday.com/ads/newegg-black-friday/page-12#ad_view)
  13. Gartner figures for global computer sales in 2015, 2016, 2017, 2018 and 2019.
    (https://www.gartner.com/en/newsroom/press-releases/2017-01-11-gartner-says-2016-marked-fifth-consecutive-year-of-worldwide-pc-shipment-decline)
    (https://venturebeat.com/2018/01/11/gartner-and-idc-agree-hp-shipped-the-most-pcs-in-2017/)
    (https://www.gartner.com/en/newsroom/press-releases/2020-01-13-gartner-says-worldwide-pc-shipments-grew-2-point-3-percent-in-4q19-and-point-6-percent-for-the-year)
  14. Intel’s i7 Generation 8 processor is capable of 361.3 gigaflop speeds. (https://www.pugetsystems.com/labs/hpc/Skylake-X-7800X-vs-Coffee-Lake-8700K-for-compute-AVX512-vs-AVX2-Linpack-benchmark-1068/)
  15. 3.2 billion people owned a smartphone in 2019.
    (https://newzoo.com/insights/trend-reports/newzoo-global-mobile-market-report-2019-light-version/)
  16. In 2019, 3D chips were common in memory storage devices, like MicroSD cards. 3D NAND chips had up to 64 layers.
    (https://semiengineering.com/what-happened-to-nanoimprint-litho/)
  17. In 2019, Intel was still working the kinks out of its first 3D computer processor, called “Lakefield,” and it wasn’t ready for commercial sales.
    (https://www.overclock3d.net/news/cpu_mainboard/intel_details_their_lakefield_processor_design_and_foveros_3d_packaging_tech/1)
  18. In 2019, computer circuits made of carbon nanotubules were still stuck in research labs, and held back from commercialization by many unsolved problems relating to cost of manufacture and reliability. Silicon was still the dominant computing substrate.
    (https://www.sciencenews.org/article/chip-carbon-nanotubes-not-silicon-marks-computing-milestone)
  19. “Compute cycle” has three meanings: #1 (https://www.zdnet.com/article/how-much-is-a-unit-of-cloud-computing/), #2 (https://www.quora.com/What-is-a-Compute-cycle) and #3 (https://www.computerhope.com/jargon/c/compute.htm)
  20. In a 2019 experiment, researchers were able to decode the words a person was speaking by studying their brain activity.
    (https://www.biorxiv.org/content/10.1101/350124v2)
  21. “The current ways of trying to represent the nervous system…[are little better than] what we had 50 years ago.”  –Marvin Minsky, 2013
    (https://youtu.be/3PdxQbOvAlI)
  22. “Today’s neural nets use algorithms that were essentially developed in the early 1980s.”
    (https://futurism.com/cmu-brain-research-grant
  23. The inventor of “back-propagation,” which spawned many computer algorithms central to AI research, now believes it will never lead to true intelligence, and that the human brain doesn’t use it.
    (https://www.axios.com/artificial-intelligence-pioneer-says-we-need-to-start-over-1513305524-f619efbd-9db0-4947-a9b2-7a4c310a28fe.html)
  24. Henry Markram’s project to create a human brain simulation by 2019 failed.
    (https://www.theatlantic.com/science/archive/2019/07/ten-years-human-brain-project-simulation-markram-ted-talk/594493/)
  25. “Like, yes, in particular areas machines have superhuman performance, but in terms of general intelligence we’re not even close to a rat.” –Yann LeCun, 2017
    (https://www.theverge.com/2017/10/26/16552056/a-intelligence-terminator-facebook-yann-lecun-interview)
  26. Machine neural networks are similar to human brains in key ways.
    (https://news.mit.edu/2017/explained-neural-networks-deep-learning-0414)
  27. Some machine neural nets use genetic algorithms.
    (https://blog.coast.ai/lets-evolve-a-neural-network-with-a-genetic-algorithm-code-included-8809bece164)
  28. Quantum imaging is a real thing. However, devices that can make use of it are still experimental.
    (https://onlinelibrary.wiley.com/doi/full/10.1002/lpor.201900097)
  29. The Samsung Galaxy S10 is an upper-end smartphone released in 2019. It has three digital cameras, all of which operate on the same technology principles as the digital cameras of 1999.
    (https://www.digitalcameraworld.com/reviews/samsung-galaxy-s10-camera-review)
  30. The 2016 Nobel Prize in Chemistry was given to three scientists who had done pioneering work on nanomachines.
    (https://www.extremetech.com/extreme/237575-2016-nobel-prize-in-chemistry-awarded-for-nanomachines)
  31. Dr. Marc Miskin’s micromachines from 2019 are interesting, but a far cry from what Kurzweil thought we’d have by then.
    (https://www.inquirer.com/health/micro-robots-upenn-cornell-20190307.html)
  32. There were less than 1 million augmented reality glasses in the world at the end of 2019. 
    https://arinsider.co/2019/09/11/5-million-ar-headsets-by-2023/
  33. Sales of print books in 2017 were not much different from what they probably were in 1999, when the Age of Spiritual Machines was published. 
    (https://www.publishersweekly.com/pw/by-topic/industry-news/publisher-news/article/75735-sales-of-print-books-increased-slightly-in-2017.html)
  34. Sales figures for “graphic paper” prove that, while paper books, newspapers, and office documents are declining, they aren’t “dead” or even “uncommon” yet. 
    (https://www.mckinsey.com/industries/paper-forest-products-and-packaging/our-insights/graphic-paper-producers-boosting-resilience-amid-the-covid-19-crisis)
  35. The “Internet Archive” has scans of 3.8 million books, and is growing. 
    (https://www.pcmag.com/news/the-internet-archive-is-linking-digital-books-to-wikipedia-citations)
  36. By late 2019, the U.S. National Archives had put 92 million pages of government documents on its website, free for anyone to view. 
    (https://narations.blogs.archives.gov/2019/10/02/naras-record-group-explorer-a-new-path-into-naras-holdings/)
  37. The 2020 report COVID-19 on Campus found that most U.S. college students found online instruction an inferior way to learn compared to traditional classroom instruction.
    (https://marketplace.collegepulse.com/img/covid19oncampus_ckf_cp_final.pdf)
  38. Another 2020 survey of U.S. teenagers found that most of them considered online learning to be less effective than in-person classes.
    (https://www.surveymonkey.com/curiosity/common-sense-media-school-reopening/)
  39. A 2020 survey of U.S. teachers and school administrators found that student absenteeism rates climbed thanks to the introduction of online classes.
    (https://www.edweek.org/ew/articles/2020/10/15/in-person-learning-expands-student-absences-up-teachers.html)
  40. A U.S. Census survey found in 2019 that 17% of students didn’t have computers in their homes and 18% had no internet access or very slow service.
    (https://apnews.com/article/7f263b8f7d3a43d6be014f860d5e4132)
  41. The “Seeing AI” smartphone app uses the device’s camera to recognize text, objects and people and to read, describe, or name them out loud. Blind users have highly reviewed it.
    (https://apps.apple.com/us/app/seeing-ai/id999062298#see-all/reviews)
  42. The “BlindSquare” smartphone app provides voice-based GPS navigation to users, and is also highly reviewed by blind people.
    (https://apps.apple.com/us/app/blindsquare/id500557255#see-all/reviews)
  43. The FDA approves the “Argus II” retinal implant system for the blind in 2013.
    (https://www.nature.com/news/fda-approves-first-retinal-implant-1.12439)
  44. In 2019, an app called “Zoi Meet” was developed for the Vuzix Blade AR glasses. The app produces real-time subtitles of spoken words, displayed across the wearer’s field of vision.
    (https://www.vuzix.com/Blog/vuzix-blade-real-time-language-transcription-zoi-meet)
  45. In 2019, there were many smartphone apps that helped deaf people to communicate with hearing people.
    (https://www.meriahnichols.com/best-deaf-apps/)
    (https://abilitynet.org.uk/news-blogs/9-useful-apps-people-who-are-deaf-or-have-hearing-loss)
  46. “Glide” is a popular video phone app among deaf people.
    (https://www.fastcompany.com/3054050/how-video-chat-app-glide-got-deaf-people-talking)
  47. “BW Dance” is an app that converts songs into patterns of vibrations that flashing lights that deaf people can experience.
    (https://www.producthunt.com/posts/bw-dance)
  48. “Not Impossible Labs” makes body suits that allow deaf people to experience music in the form of complex patterns of vibrations.
    (https://www.billboard.com/articles/news/8476553/not-impossible-labs-live-music-deaf)
  49. Cochlear implants have gotten better and more common among deaf people as time has passed.
    (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4111484/)
  50. U.S. sales growth of cochlear implants is projected to continue.
    (https://www.grandviewresearch.com/industry-analysis/cochlear-implants-industry)
  51. Aside from cochlear implants, middle ear implants, auditory brainstem implants, and bone-anchored hearing aids can amplify or restore hearing.
    (https://www.bcig.org.uk/cochlear-implant-devices/implantable-devices/)
  52. People who are blind, or deaf, or who have serious spinal cord damage are less likely to have jobs and also make less money than people who don’t have those conditions.
    (https://www.afb.org/research-and-initiatives/employment/reviewing-disability-employment-research-people-blind-visually)
    (https://www.nationaldeafcenter.org/news/employment-report-shows-strong-labor-market-passing-deaf-americans)
    (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2792457/)
  53. A 2018 survey found that most American adults spent an average of 24-41 minutes per day on phone calls. The survey didn’t break that number out into traditional voice-only calls and video calls.
    (https://www.zdnet.com/article/americans-spend-far-more-time-on-their-smartphones-than-they-think/)
  54. Another 2018 survey commissioned by the telecom company Vonage found that “1 in 3 people live video chat at least once a week.” That means 2 in 3 people use the technology less often than that, perhaps not at all. The data from this and the previous source strongly suggest that voice-only calls were much more common than video calls, which strongly aligns with my everyday observations.
    (https://www.vonage.com/resources/articles/video-chatterbox-nation-report-2018/)
  55. A person with 20/20 vision basically sees the world as a wraparound TV screen that is 12,600 pixels wide x 9,000 pixels high (total: 113.4 million pixels). VR goggles with resolutions that high will become available between 2025 and 2028, making “lifelike” virtual reality possible.
    (https://www.microsoft.com/en-us/research/uploads/prod/2018/02/perfectillusion.pdf)
  56. The “Varjo VR-1” virtual reality goggles cost $6,000 and can display lifelike images at the centers of their screens.
    (https://www.cnet.com/news/the-best-vr-display-ive-ever-seen-varjo-vr-1-costs-6000/)
  57. A roundup of the top ten speech-to-speech language translation apps of 2019.
    (https://www.daytranslations.com/blog/top-10-free-language-translation-apps/)
  58. A 2018 study found that the best English-Mandarin machine translation programs were inferior to professional human translators.
    (https://www.technologyreview.com/2018/09/05/140487/human-translators-are-still-on-top-for-now/)
  59. The “Oculus Go” is a VR headset that doesn’t need to be plugged into anything else for electricity or data processing. It’s a fully self-contained device.
    (https://www.cnet.com/reviews/oculus-go-review/)
  60. As this 2019 article makes clear, virtual haptic technology is far less advanced than Kurzweil predicted it would be.
    (https://www.scientificamerican.com/article/new-virtual-reality-interface-enables-touch-across-long-distances/)
  61. An account of a firsthand experience with cutting-edge (no pun intended) teledildonics in 2018:
    (https://www.engadget.com/2018-07-02-flirt4free-teledildonics-long-distance-sex.html)
  62. A 2019 analysis shows that the vast majority of transactions in the U.S. are still done face-to-face between humans, but e-commerce’s share is steadily growing.
    (https://www.digitalcommerce360.com/article/us-ecommerce-sales/)
  63. A roundup of the highest-rated robot vacuum cleaners of 2019:
    (https://www.techhive.com/article/3388038/best-robot-vacuums-on-amazon.html)
  64. A list of advanced car safety features from 2019:
    (https://www.caranddriver.com/features/g27612164/car-safety-features/)
  65. Tesla Autopilot is capable of Level 3 autonomous driving. However, out of an abundance of caution (e.g. – just one accident generates enormous bad publicity), the company has installed features that cap it at Level 2.
    (https://electrek.co/2019/09/19/tesla-autopilot-v10-commute-without-driver-intervention/)
  66. French inventor Franky Zapata designed a flying skateboard called the “Flyboard Air,” and used it to cross the English Channel and wow crowds during the 2019 Bastille Day military parade.
    (https://www.theverge.com/2019/8/4/20753648/jet-powered-hoverboard-english-channel-crossing-franky-zapata-success)
  67. These World Health Organization reports show that deadly road accidents were about as common in 2016 as they were in 2000. It’s still a leading cause of death.
    (https://www.who.int/news-room/fact-sheets/detail/the-top-10-causes-of-death)
    (https://apps.who.int/iris/bitstream/handle/10665/277370/WHO-NMH-NVI-18.20-eng.pdf?ua=1)
  68. The CDC reported that 43,024 people died in the U.S. in 2017 of “Transport accidents.” Only 1,718 of those did not involve road vehicles.
    (https://www.cdc.gov/nchs/data/nvsr/nvsr68/nvsr68_09_tables-508.pdf)
  69. Advances in AI during the 2010s forced humans to examine the specialness of human thinking, whether machines could also be intelligent and creative and what it would mean for humans if they could.
    (https://www.bbc.com/news/business-47700701)
  70. Andrew Yang made technological unemployment and universal basic income (UBI) major components of his 2020 U.S. Presidential campaign platform.
    (https://en.wikipedia.org/wiki/Andrew_Yang#2020_presidential_campaign)
  71. An article explaining “acoustic gunshot detection”:
    (https://www.eff.org/pages/gunshot-detection)
  72. The “ShotSpotter” gunshot detection system was emplaced in over 100 cities in 2019.
    (https://www.startribune.com/as-gunfire-continues-in-st-paul-so-does-shotspotter-debate/565382652/)
  73. This 2019 article from Dayton shows a correlation between the presence of license plate readers and a decrease in violent crime.
    (https://www.daytondailynews.com/news/area-police-look-to-license-plates-readers-as-crime-fighting-tool/ESQLILHQP5HJTCIVJL6IJ6T7VU/)
  74. In 2018, a wanted criminal was arrested in China after facial recognition cameras identified him at a concert, out of a crowd of 60,000 people.
    (https://www.bbc.com/news/world-asia-china-43751276)
  75. Edward Snowden’s key revelations about electronic spying.
    (https://mashable.com/2014/06/05/edward-snowden-revelations/)
  76. An incomplete list of data hacks that happened in the 2010s. Hundreds of millions of people had important personal data compromised.
    (https://www.cnn.com/2019/07/30/tech/biggest-hacks-in-history/index.html)
  77. A list of commonly used encrypted messaging apps in 2019. (https://heimdalsecurity.com/blog/the-best-encrypted-messaging-apps/)
  78. In 2018, VPNs were widely used on every continent. Forty-four percent of Indonesian internet users had them.
    (https://blog.globalwebindex.com/chart-of-the-day/vpn-usage-2018/)
  79. If obesity rates are any indication, people in the 2010s were not too poor to feed themselves.
    (https://academic.oup.com/eurpub/article/23/3/464/536242)
  80. In 2005, obesity became a cause of more childhood deaths than malnourishment. The disparity was surely even greater by 2019. There’s no financial reason why anyone on Earth should starve.
    (https://www.factcheck.org/2013/03/bloombergs-obesity-claim/)
  81. Several studies done during the 2010s indicated that governments would save money if they gave the homeless free apartments.
    (https://www.vox.com/2014/5/30/5764096/homeless-shelter-housing-help-solutions)
  82. A 2016 article about Google’s “Deep Dream” program, which can make surreal, artistic images.
    (https://www.theguardian.com/artanddesign/2016/mar/28/google-deep-dream-art)
  83. A computer-generated painting, “Portrait of Edmond de Belamy,” sold for $423,500 in 2018. Have YOU ever made a painting worth that much money?
    (https://edition.cnn.com/style/article/obvious-ai-art-christies-auction-smart-creativity/index.html)
  84. “Obvious” is a “collective” of humans and computers that produce acclaimed art.
    (https://obvious-art.com/page-about-obvious/)
  85. “EMMY” is a machine that can write decent instrumental songs.
    (https://www.theatlantic.com/entertainment/archive/2014/08/computers-that-compose/374916/)
  86. Google’s “Open JukeBox” could even write songs that had simulated human voices singing.
    (https://openai.com/blog/jukebox/)
  87. Samples of GPT-2’s poetry.
    (https://www.gwern.net/GPT-2)
  88. Samples of GPT-2’s short news articles and written responses to prompts.
    (https://openai.com/blog/better-language-models/)
  89. “Auto-Tune” is a widely used song editing software program that can seamlessly alter the pitch and tone of a singer’s voice, allowing almost anyone to sound on-key. Most of the world’s top-selling songs were made with Auto-Tune or something similar to it. Are the most popular songs now products of “collaboration between human and machine intelligence”?
    (https://en.wikipedia.org/wiki/Auto-Tune)
  90. The virtual reality gaming industry had about $1.2 billion in revenues in 2019.
    (https://www.juniperresearch.com/press/press-releases/virtual-reality-games-revenues-reach-8-bn-2023)
  91. In 2017, terrorists killed 14,300 people globally.
    (https://www.jewishvirtuallibrary.org/statistics-on-incidents-of-terrorism-worldwide)
  92. The U.S. spent $16.6 billion on cybersecurity in FY2019.
    (https://www.fedscoop.com/cybersecurity-budget-2020-trump-white-house/)
  93. The U.S. military’s “base” defense budget was $726.2 billion in FY2019.
    (https://fas.org/sgp/crs/natsec/R44519.pdf)
  94. The U.S. spent $33.6 billion on its nuclear forces in FY2019.
    (https://www.cbo.gov/system/files/2019-01/54914-NuclearForces.pdf)
  95. The “Phantom X1” ultralight plane.
    (https://en.wikipedia.org/wiki/Phantom_X1)
  96. Data for several “tiny” flying drones in use with the U.S. Navy in 2019.
    (https://www.navy.mil/DesktopModules/ArticleCS/Print.aspx?PortalId=1&ModuleId=724&Article=2159299)
  97. Data on the U.S. Army’s unmanned drones, including “tiny” ones, from the same period.
    (https://fas.org/irp/program/collect/uas-army.pdf)
  98. In 2019, the U.S. Air Force had 5,182 manned aircraft and wanted to buy 10,264 new guided missiles.
    (https://www.csis.org/analysis/us-military-forces-fy-2020-air-force)
  99. We recently discovered how a mutation in the “SF3B1” gene changes intracelluar activity in ways that raise cancer risk.
    (https://www.fredhutch.org/en/news/center-news/2019/10/sf3b1-cancer-mutation.html)
  100. The Human Genome Project led to major cost improvements to gene sequencing technology, and to the discovery of many disease-associated genes.
    (https://unlockinglifescode.org/learn/human-genome-project)
  101. We have a better understanding of how cell-level molecular machinery contributes to aging.
    (https://pure.au.dk/ws/files/52135662/DemirovicRattanExpGer13.pdf)
  102. Official 2018 life expectancy figures for the U.S. and Japan:
    (https://www.cdc.gov/nchs/products/databriefs/db355.htm)
    (https://www.nippon.com/en/features/h00250/life-expectancy-for-japanese-men-and-women-at-new-record-high.html)
  103. The 2019 Worldwide Threat Assessment barely mentions biological weapons.
    (https://www.dni.gov/files/ODNI/documents/2019-ATA-SFR—SSCI.pdf)
  104. Pfizer’s COVID-19 vaccine is the first to incorporate mRNA. The new technology could lead to other vaccines that save millions of lives.
    (https://www.wfaa.com/article/news/health/coronavirus/vaccine/what-is-an-mrna-covid-19-vaccine-and-how-does-it-differ-from-other-vaccines/287-240b8181-f13f-47a4-9514-9b6b30988d32)
    (http://www.rationaloptimist.com/blog/mrna-vaccines-could-revolutionise-medicine/)
  105. Several smart watches available in 2019 had ECG monitors.
    (https://www.reviewsbreak.com/best-ecg-smartwatch/)
    (https://www.theverge.com/2018/9/13/17855006/apple-watch-series-4-ekg-fda-approved-vs-cleared-meaning-safe)
  106. In 2019, Apple Watches with ECG monitors detected atrial fibrillation events in almost 2,000 people.
    (https://news.trust.org/item/20190316134851-5cktc/)
  107. The Apple Watch’s “hard fall” detection feature might have already saved the lives of several injured people.
    (https://www.nbcnews.com/news/us-news/apple-watch-s-hard-fall-feature-automatically-calls-911-hiker-n1070471)
  108. The “HeartGuide” smart watch can monitor blood pressure.
    (https://www.medtechdive.com/news/fda-cleared-wearable-blood-pressure-device-hits-market/544908/)
  109. The media wrongly declared in 2014 the “Eugene Goostman” had passed the Turing Test.
    (https://www.bbc.com/news/technology-27762088)
    (https://www.kurzweilai.net/mt-notes-on-the-announcement-of-chatbot-eugene-goostman-passing-the-turing-test)
  110. Google’s “Duplex” AI could masquerade as human for short conversations.
    (https://digital.hbs.edu/platform-rctom/submission/google-duplex-does-it-pass-the-turing-test/)
  111. The actions by Japan and Saudi Arabia to grant some rights to machines are probably invalid under their own legal frameworks.
    (https://www.ersj.eu/journal/1245)
  112. Facebook’s image recognition feature relied on a massive training set of data prepared by humans.
    (https://engineering.fb.com/2018/05/02/ml-applications/advancing-state-of-the-art-image-recognition-with-deep-learning-on-hashtags/)

Interesting articles, April 2021

LED lightbulbs are now cheaper than CFL bulbs and no more expensive than incandescent bulbs (at least, at my local Home Depot, where I took the above photos). Considering the fact that LEDs use less electricity and last much longer than either of the other two, and emit light with the same spectral qualities, it makes no economic or aesthetic sense to buy anything but LEDs. This also means another of my future predictions has come true:

“[During the 2020s] LED light bulbs will become as cheap as CFL and even incandescent bulbs. It won’t make economic sense NOT to buy LEDs, and they will establish market dominance.”

Here’s an article from 2015 about the rise of LED lightbulbs and “smart bulbs,” which can send and receive data via Wifi.
https://www.nytimes.com/2015/01/22/garden/the-rise-of-the-smartbulb.html

A funny list of wrong predictions.
https://www.2spare.com/item_50221.html

During its 2.4 million years of existence, about 2.5 billion Tyrannosaurus rex lived and died.
https://www.axios.com/t-rex-billion-dinosaur-population-estimates-study-bbee965b-268c-4afc-9dc7-f9f9901ab080.html

Here’s an old but interesting AMD presentation about the feasibility of building a “holodeck” using real technology. The illustrations show a dome-shaped room the user stands at the center of.
https://www.slideshare.net/AMD/amd-isscc-keynote

The U.S. Navy’s Littoral Combat Ships are a failed experiment at this point: they cost almost as much to operate as the much larger and more powerful Arleigh-Burke class destroyers. We should have made a new class of frigates that improved on the conventional Oliver Hazard Perry class frigates instead of making the Littoral Combat Ships.
https://www.thedrive.com/the-war-zone/40147/littoral-combat-ships-cost-nearly-as-much-to-run-as-guided-missile-destroyers

President Biden will withdraw the last 3,500 U.S. troops from Afghanistan by 9/11/2021, ending 20 years of low-level warfare and occupation. I agree with him that things in Afghanistan are as good as they’re going to ever get, and staying there forever isn’t an option.
https://www.npr.org/2021/04/14/986955659/biden-to-announce-he-will-end-americas-longest-war-in-afghanistan

After North Vietnam annexed its Southern rival in 1975, it seized vast amounts of U.S.-made weapons, ranging from weapons to fighter planes. Some items were kept in service, and some were used to arm rebel groups throughout the world.
https://www.youtube.com/watch?v=CPhFoptpkiE

“Harop” flying suicide drones make scary wailing noises as they plunge to the ground, like the Stukas of WWII. This design feature is deliberately.
https://www.thedrive.com/the-war-zone/40265/the-sound-of-this-nighttime-suicide-drone-strike-is-absolutely-terrifying

The “Smart Slide” attaches is a new accessory for Glock handguns that has a small digital display counting the number of bullets remaining in the weapon. This feature has long been a feature of sci-fi movies and video games. As sensors and computer chips get cheaper and smaller, bullet counting devices will get very cheap and reliable.
https://youtu.be/oPsT06VjudA

Nuclear fusion powers the sun, is the force behind thermonuclear bombs, and might be harnessed someday to make practically unlimited amounts of clean energy. Subatomic fusion involves even smaller particles, “quarks,” and releases eight times as much energy per fusion event, but has no practical use since the fusion of two quarks doesn’t release enough energy to create a chain reaction of nearby quarks fusing.
https://www.livescience.com/60847-charm-quark-fusion-subatomic-hydrogen-bomb.html

Robotic automation would be enormously helpful in chemistry labs, allowing human chemists to focus on more interesting, higher-level work.
https://blogs.sciencemag.org/pipeline/archives/2021/03/31/lab-of-the-future

“So, if we’re looking for areas of physics that a quantum computer would have trouble simulating, we’re left with just one: quantum gravity.”
https://www.pbs.org/wgbh/nova/article/is-there-anything-beyond-quantum-computing/

As I mentioned in a recent post, the human brain is much much more energy-efficient than our best computers. This article has more technical detail on the reasons for that.
‘While computing architectures separating memory and processor have without a doubt been one of the greatest tools humans have ever built and will continue to be more and more capable, it introduces fundamental limitations in our ability to build large-scale adaptive systems at practical power efficiencies.’
https://knowm.org/the-adaptive-power-problem/

I don’t think the technological singularity will happen, but it’s still useful to read essays from the pro- camp sometimes. I agree with the author that it’s unlikely humans will be able to keep pace with AI by merging our minds with computers. Doing the interface will be very hard, and even if it were done seamlessly, the “merged” people would still be hamstrung by the limitations of their organic brains and all the evolutionary baggage that comes with it.
https://io9.gizmodo.com/the-worst-lies-youve-been-told-about-the-singularity-1486458719

This article on why AGI won’t destroy the human race dovetails with my recent post about the same topic. I wish I’d thought of some of these ideas.
https://io9.gizmodo.com/10-reasons-an-artificial-intelligence-wouldnt-turn-evil-1564569855

The Hyundai-owned car company “Genesis” celebrated its entry into China’s market by flying a record-breaking 3,281 drones simultaneously as part of a show.
https://www.engadget.com/genesis-breaks-drone-world-record-214420405.html

“In this ABC interview from 1974, science fiction writer Arthur C. Clarke makes the bold claim that one day computers will allow people to work from home and access their banking records.”
https://www.youtube.com/watch?v=sTdWQAKzESA

Elon Musk’s Neuralink company announced new progress in brain-computer implants: a monkey was able to play a simple video game by thought alone.
https://www.youtube.com/watch?v=2rXrGH52aoM

‘Stolyarov foresees a different outcome. Instead of relentlessly optimising ourselves to a model of perfection, he predicts an explosion of diversity. “Different people would choose to augment themselves in different ways, stretching their abilities in different directions. We will not see a monolithic hierarchy of some augmented humans at the top, while the non-augmented humans get relegated to the bottom,” he reasons. “Rather, widespread acceptance of emerging technologies would create a future where a thousand augmented flowers will bloom.”’

I think this will turn out to be half right, half wrong. Once we’re masters of genetic and biological manipulation and can install cyborg implants in ourselves, the bar for a variety of important human traits will be raised for everybody, so what counts as “standard” in 2171 will be today’s “99th percentile human.” Think of it like getting vaccines today–why put yourself at risk of contracting polio, measles, and mumps when you can get a few cheap (free for some people) injections? Why only pick one or two and leave yourself at risk for others when it’s trivially easy to just get the shots all at once and cover your bases for all the diseases?

Likewise, in the distant future, a “standard human package” would include 20/10 vision, excellent hearing, 140 IQ, 120-year lifespan, etc. The “average human” will be the sort of person who gets into MIT at age 16 today, becomes captain of the baseball team and leader of a bunch of student groups, and does modeling gigs on the side. With that higher standard in place, individuals would upgrade themselves well beyond human limits in whatever niche areas they desired, like replacing their legs with robot legs or wheels so they could run at 40 mph.
https://www.bbc.com/future/article/20140924-the-greatest-myths-about-cyborgs

Yuri Gagarin went into space 60 years ago.
https://apnews.com/article/technology-moscow-bbb2cf68c5eb9a724df52c3b13bd0d4f

For the first time, a human-made aircraft flew on another planet.
https://www.bbc.com/news/science-environment-56799755

There have been recent UFO sightings in Canada by credible people.
https://www.vice.com/en/article/z3xewj/air-canada-westjet-porter-pilots-ufo-sightings

There are insane but theoretically plausible plans to make Mars habitable by building giant satellites around it that would create an artificial magnetic field around the planet. This would prevent its atmosphere from blowing off into space, letting it slowly thicken enough to support life.
https://www.wired.co.uk/article/magnetic-shield-mars-habitable

‘Earlier work by Hazen and other scientists showed that minerals and life likely coevolved. Minerals might have prodded life along by catalyzing reactions that produced biomolecules, for example. And life certainly changed the biosphere in ways that affected how minerals formed. “The origin of life depends on minerals, but the origin of minerals depends on life,” said Hazen. Because of this relationship, the presence or absence of certain minerals on distant planets could affect the chance that the planet harbors detectable life. For example, astronomers know that some stars have different ratios of elements than the Sun does. The star’s chemical makeup affects the abundance of elements on any orbiting planets, and thus which minerals might form. Those minerals in turn could influence geological processes, the chances of life emerging and whether signs of life would be visible.’
https://www.quantamagazine.org/is-mineral-evolution-driven-by-chance-20150811/

The “X-CarCopter” and “X-TankCopter” are little drones that can drive over the ground and fly in the air.
https://youtu.be/PJMQQg_Qmf0
https://www.youtube.com/watch?v=W_nHb3gvijU

‘The Harvard geneticist George Church told me that one day sensors might “sip the air” so that a genomic app on our phones can tell us if there’s a pathogen lurking in a room.’
Quite possible. Also, the same sensors could detect all kinds of other things aside from pathogens, like substances you were allergic to. If you had a severe peanut allergy, you could wave your smartphone over a meal you had ordered to make sure it had none in it.
https://www.nytimes.com/interactive/2021/03/25/magazine/genome-sequencing-covid-variants.html

A rancher in Texas has been cloning prize deer so people can hunt them.
https://www.huffpost.com/entry/texas-rancher-cloned-deer-lawmakers-want-legalize_n_607ef3e0e4b03c18bc29fdd2

In September of last year, Bill Gates predicted that 2 – 4 COVID-19 vaccines would be FDA approved by early 2021. He was right–three have been authorized in the U.S., and even more varieties are available overseas.
https://finance.yahoo.com/news/bill-gates-thinks-ll-covid-110000085.html

Also in September, then-President Trump predicted that vaccine production levels would be high enough “by April” of 2021 to provide a dose to every American. While that proved overly optimistic, it’s now the end of April, and 1/3 of all U.S. adults have been fully vaccinated, which represents major progress.
https://www.dailymail.co.uk/news/article-8748985/Donald-Trump-says-American-vaccine-April.html
https://apnews.com/article/ny-state-wire-coronavirus-health-1b7dd49a70a5232dca0cf2431d4da7b3

The typical bragging about the superiority of their healthcare system has ceased as Canadians have watched America sharply pull ahead in vaccinating its citizens against COVID-19.
https://www.washingtonpost.com/world/2021/04/20/coronavirus-canada-vaccine-united-states/

The more contagious COVID-19 strain that originated in Britain is now the dominant strain in the U.S.
https://www.nbcnews.com/science/science-news/uk-coronavirus-variant-now-dominant-strain-us-rcna606