My future predictions (2023 iteration)

If it’s January, it means it’s time for me to update my big list of future predictions! I used the 2022 version of this document as a template, and made edits to it as needed. For the sake of transparency, I’ve indicated recently added content by bolding it, and have indicated deleted or moved content with strikethrough.

Like any futurist worth his salt, I’m going to put my credibility on the line by publishing a list of my future predictions. I won’t modify or delete this particular blog entry once it is published, and if my thinking about anything on the list changes, I’ll instead create a new, revised blog entry. Furthermore, as the deadlines for my predictions pass, I’ll reexamine them.

I’ve broken down my predictions by the decade. Any prediction listed under a specific decade will happen by the end of that decade, unless I specify some other date (e.g. – “X will happen early in this decade.”).

2020s

  • Better, cheaper solar panels and batteries (for grid power storage and cars) will make clean energy as cheap and as reliable as fossil fuel power for entire regions of the world, including some temperate zones. As cost “tipping points” are reached, it will make financial sense for tens of millions of private homeowners and electricity utility companies to install solar panels on their rooftops and on ground arrays, respectively. This will be the case even after government clean energy subsidies are inevitably retracted. However, a 100% transition to clean energy won’t finish in rich countries until the middle of the century, and poor countries will use dirty energy well into the second half of the century.
  • Fracking and the exploitation of tar sands in the U.S. and Canada will together ensure growth in global oil production until around 2030, at which time the installed base of clean energy and batteries will be big enough to take up the slack. There will be no global energy crisis.
  • This will be a bad decade for Russia as its overall population shrinks, its dependency ratio rises, and as low fossil fuel prices and sanctions keep hurting its economy. Russia will fall farther behind the U.S., China, and other leading countries in terms of economic, military, and technological might.
  • China’s GDP will surpass America’s, India’s population will surpass China’s, and China will never claim the glorious title of being both the richest and most populous country.
  • Improvements to smartphone cameras, mirrorless cameras, and perhaps light-field cameras will make D-SLRs obsolete. 
  • Augmented reality (AR) glasses that are much cheaper and better than the original Google Glass will make their market debuts and will find success in niche applications. Some will grant wearers superhuman visual abilities in the forms of zoom-in and night vision.
  • Virtual reality (VR) gaming will go mainstream as the devices get better and cheaper. It will stop being the sole domain of hardcore gamers willing to spend over $1,000 on hardware.
  • Vastly improved VR goggles with better graphics and no need to be plugged into desktop PCs will hit the market. They won’t display perfectly lifelike footage, but they will be much better than what we have today, and portable. 
  • “Full-immersion” audiovisual VR will be commercially available by the end of the decade. These VR devices will be capable of displaying video that is visually indistinguishable from real reality: They will have display resolutions (at least 60 pixels per degree of field of view), refresh rates, head tracking sensitivities, and wide fields of view (210 degrees wide by 150 degrees high) that together deliver a visual experience that matches or exceeds the limits of human vision. These high-end goggles won’t be truly “portable” devices because their high processing and energy requirements will probably make them bulky, give them only a few hours of battery life (or maybe none at all), or even require them to be plugged into another computer. Moreover, the tactile, olfactory, and physical movement/interaction aspects of the experience will remain underdeveloped.
  • “Deepfake” pornography will reach new levels of sophistication and perversion as it becomes possible to seamlessly graft the heads of real people onto still photos and videos of nude bodies that closely match the physiques of the actual people. New technology for doing this will let amateurs make high-quality deepfakes, meaning any person could be targeted. It will even become possible to wear AR glasses that interpolate nude, virtual bodies over the bodies real people in the wearer’s field of view to provide a sort of fake “X-ray-vision.” The AR glasses could also be used to apply other types of visual filters that degraded real people within the field of view.
  • “Smart home”/”Wired home” technology will become mature and widespread in developed countries.
  • Video gaming will dispense with physical media, and games will be completely streamed from the internet or digitally downloaded. Business that exist just to sell game discs (Gamestop) will shut down.
  • Instead of a typical home entertainment system having a whole bunch of media discs, different media players and cable boxes, there will be one small, multipurpose box that, among other things, boosts WiFi to ensure the TV and all nearby devices can get signals at multi-Gb/s speeds.
  • Self-driving vehicles will start hitting the roads in large numbers in rich countries. The vehicles won’t drive as efficiently as humans (a lot of hesitation and slowing down for little or no reason), but they’ll be as safe as human drivers. Long-haul trucks that ply simple highway routes will be the first category of vehicles to be fully automated. The transition will be heralded by a big company like Wal-Mart buying 5,000 self-driving tractor trailers to move goods between its distribution centers and stores. Last-mile delivery–involving weaving through side streets, cities and neighborhoods, and physically carrying packages to peoples’ doors–won’t be automated until after this decade. Self-driving, privately owned passenger cars will stay few in number and will be owned by technophiles, rich people, and taxi cab companies.
  • Thanks to improvements in battery energy density and cost, and in fast-charging technology, electric cars will become cost-competitive with gas-powered cars this decade without government subsidies, leading to their rapid adoption. Electric cars are mechanically simpler and more reliable than gas-powered ones, which will hurt the car repair industry. Many gas stations will also go bankrupt or convert to fast charging stations.
  • Quality of life for people living and working in cities and near highways will improve as more drivers switch to quieter, emissionless electric vehicles. The noise reduction will be greatest in cities and suburbs where traffic moves slowly: https://cleantechnica.com/2016/06/05/will-electric-cars-make-traffic-quieter-yes-no/
  • Most new power equipment will be battery-powered, so machines like lawn mowers, leaf blowers, and chainsaws will be much quieter and less polluting than they are today. Batteries will be energy-dense enough to compete with gasoline in these use cases, and differences in overall equipment weight and running time will be insignificant. The notion of a neighbor shattering your sense of peace and quiet with loud yard work will get increasingly alien. 
  • A machine will pass the Turing Test by the end of this decade. The milestone will attract enormous amounts of attention and will lead to several retests, some of which the machine will fail, proving that it lacks the full range of human intelligence. It will lead to debate over the Turing Test’s validity as a measure of true intelligence (Ray Kurzweil actually talked about this phenomenon of “moving the goalposts” whenever we think about how smart computers are), and many AI experts will point out the existence of decades-long skepticism in the Turing Test in their community.
  • The best AIs circa 2029 won’t be able to understand and upgrade their own source codes. They will still be narrow AIs, albeit an order of magnitude better than the ones we have today.
  • Machines will become better than humans at the vast majority of computer, card, and board games. The only exceptions will be very obscure games or recently created games that no one has bothered to program an AI to play yet. But even for those games, there will be AIs with general intelligence and learning abilities that will be “good enough” to play as well as average humans by reading the instruction manuals and teaching themselves through simulated self-play.
  • The cost of getting your genome sequenced and expertly interpreted will drop below $1,000, and enough about the human genome will have been deciphered to make the cost worth the benefit for everyone. By the end of the decade, it will be common for newborns in rich countries to have their genomes sequenced.
  • Better technology will also let pregnant women noninvasively obtain their fetuses’ DNA, at affordable cost.
  • Cheap DNA tests that can measure a person’s innate IQ and core personality traits with high accuracy will become widely available. There is the potential for this to cause social problems. 
  • At-home medical testing kits and diagnostic devices like swallowable camera-pills will become vastly better and more common.
  • Space tourism will become routine thanks to privately owned spacecraft. 
  • Marijuana will be effectively decriminalized in the U.S. Either the federal government will overturn its marijuana prohibitions, or some patchwork of state and federal bans will remain but be so weakened and lightly enforced that there will be no real government barriers to obtaining and using marijuana. 
  • By the end of this decade, photos of almost every living person will be available online (mostly on social media). Apps will exist that can scan through trillions of photos to find your doppelgangers. 
  • In 2029, the youngest Baby Boomer and the oldest Gen Xer will turn 65. 
  • Drones will be used in an attempted or successful assassination of at least one major world leader (Note: Venezuela’s Nicholas Maduro wasn’t high profile enough).

2030s

  • VR and AR goggles will become refined technologies and probably merge into a single type of lightweight device. Like smartphones today, anyone who wants the glasses in 2030 will have them. Even poor people in Africa will be able to buy them. A set of the glasses will last a day on a single charge under normal use.  
  • Augmented reality contact lenses will enter mass production and become widely available, though they won’t be as good as AR glasses and they might need remotely linked, body-worn hardware to provide them with power and data. https://www.inverse.com/article/31034-augmented-reality-contact-lenses
  • The bulky VR goggles of the 2020s will transform into lightweight, portable V.R. glasses thanks to improved technology. The glasses will display lifelike footage. However, the best VR goggles will still need to be plugged into other devices, like routers or PCs.
  • Wall-sized, thin, 8K or even 16K TVs will become common in homes in rich countries, and the TVs will be able to display 3D picture without the use of glasses, though the 3D effect will only be visible to people sitting directly in front of the screen. A sort of virtual reality chamber could be created at moderate cost by installing those TVs on all the walls of a room to create a single, wraparound screen.
  • It will be common for celebrities of all kinds to make money by “hanging out” with paying customers in virtual reality. For some lower-tier celebrities, this will be their sole source of income. 
  • Functional CRT TVs and computer monitors will only exist in museums and in the hands of antique collectors. This will also be true for DLP TVs. 
  • The video game industry will be bigger than ever and considered high art.
  • It will be standard practice for AIs to be doing hyperrealistic video game renderings, and for NPCs to behave very intelligently thanks to better AI. 
  • 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.
  • Loose-leaf sheets of “digital paper” will also exist thanks to the same technology.
  • Commercially available, head-worn, brain-computer-interface devices (BCIs) linked to augmented reality eyewear will gift humans with crude forms of telepathy and telekinesis. For example, a person wearing the devices could compose a short sentence merely by thinking about it, see the text projected across his augmented field of view, use his thoughts to make any needed edits, and then transmit the sentence to another person or machine, merely by thinking a “Send” command. The human recipient of the message with the same BCI/eyewear setup would see the text projected across his field of view and could compose a response through the same process the first person used. BCIs will also let humans send commands to a machines, like printers. For almost all use cases, this type of communication will be less efficient than traditional alternatives, like manually typing a text message or clicking the “Print” button at the top of a word processing application, but it will be an important proof of concept demonstration that will point to what is to come later in the century.
  • Loneliness, social isolation, and other problems caused by overuse of technology and the atomized structure of modern life will be, ironically, cured to a large extent by technology. Chatbots that can hold friendly (and even funny and amusing) conversations with humans for extended periods, diagnose and treat mental illnesses as well as human therapists, and customize themselves to meet the needs of humans will become ubiquitous. The AIs will become adept at analyzing human personalities and matching lonely people with friends and lovers, at matching them with social gatherings (including some created by machines), and at recommending daily activities that will satisfy them, hour-by-hour. Machines will come to understand that constant technology use is antithetical to human nature, so in order to promote human wellness, they find ways to impel humans to get out of their houses, interact with other humans, and be in nature. Autonomous taxis will also be widespread and will have low fares, making it easier for people who are isolated due to low income or poor health (such as many elderly people) to go out.
  • Chatbots will steadily improve their “humanness” over the decade. The instances when AIs say or do something nonsensical will get less and less frequent. Dumber people, children, and people with some types of mental illness will be the first ones to start insisting their AIs are intelligent like humans. Later, average people will start claiming the same. By the end of the decade, a personal assistant AI like “Samantha” from the movie Her will be commercially available. AI personal assistants will have convincing, simulated personalities that seem to have the same depth as humans. Users will be able to pick from among personality profiles or to build their own.  
  • Chatbots will be able to have intelligent conversations with humans about politics and culture, to identify factually wrong beliefs, biases, and cognitive blind spots in individuals, and to effectively challenge them through verbal discussion and debate. The potential will exist for technology to significantly enlighten the human population and to reduce sociopolitical polarization. However, it’s unclear how many people will choose to use this technology. 
  • Turing-Test-capable chatbots will also supercharge the problem of online harassment, character assassination, and deliberate disinformation by spamming the internet with negative reviews, bullying messages, emails to bosses, and humiliating “deepfake” photos and videos of targeted people. Today’s “troll farms” where humans sit at computer terminals following instructions to write bad reviews for specific people or businesses will be replaced by AI trolls that can pump out orders of magnitude more content per day. And just as people today can “buy likes” for their social media accounts or business webpages, people in the future will be able, at low cost, to buy harassment campaigns against other people and organizations they dislike. Discerning between machine-generated and human-generated internet content will be harder and more important than ever.
  • House robots will start becoming common in rich countries. They will be slower at doing household tasks than humans, but will still save people hours of labor per week. They may or may not be humanoid. For the sake of safety and minimizing annoyance, most robots will do their work when humans aren’t around. As in, you would come home from work every day and find the floors vacuumed, the lawn mowed, and your laundered clothes in your dresser, with nary a robot in sight since it will have gone back into its closet to recharge. You would never hear the commotion of a clothes washing machine, a vacuum cleaner or a lawnmower. All the work would get done when you were away, as if by magic.
  • People will start having genuine personal relationships with AIs and robots. For example, people will resist upgrading to new personal assistant AIs because they will have emotional attachments to their old ones. The destruction of a helper robot or AI might be as emotionally traumatic to some people as the death of a human relative.
  • Farm robots that are better than humans at fine motor tasks like picking strawberries humans will start becoming widespread.  
  • Self-driving cars will become cheap enough and practical enough for average income people to buy, and their driving behavior will become as efficient as an average human. Over the course of this decade, there will be rapid adoption of self-driving cars in rich countries. Freed from driving, people will switch to doing things like watching movies/TV and eating. Car interiors will change accordingly. Road fatalities, and the concomitant demands for traffic police, paramedics, E.R. doctors, car mechanics, and lawyers will sharply decrease. The car insurance industry will shrivel, forcing consolidation. (Humans in those occupations will also face increasing levels of direct job competition from machines over the course of the decade.)
  • Private owners of autonomous cars will start renting them out while not in use as taxis and package delivery vehicles. Your personal, autonomous car will drive you to work, then spend eight hours making money for you doing side jobs, and will be waiting for you outside your building at the end of the day.
  • The “big box” business model will start taking over the transportation and car repair industry thanks to the rise of electric, self-driving vehicles and autonomous taxis in place of personal car ownership. The multitudes of small, scattered car repair shops will be replaced by large, centralized car repair facilities that themselves resemble factory assembly lines. Self-driving vehicles will drive to them to have their problems diagnosed and fixed, sparing their human owners from having to waste their time sitting in waiting rooms.
  • The same kinds of facilities will make inroads into the junk yard industry, as they would have all the right tooling to cheaply and rapidly disassemble old vehicles, test the parts for functionality, and shunt them to disposal or individual resale. (The days of hunting through junkyards by yourself for a car part you need will eventually end–it will all be on eBay. )
  • Car ownership won’t die out because it will still be a status symbol, and having a car ready in your driveway will always be more convenient than having to wait even just two minutes for an Uber cab to arrive at the curb. People are lazy.
  • The ad hoc car rental model exemplified by autonomous Uber cabs and private people renting out their autonomous cars when not in use faces a challenge since daily demand for cars peaks during morning rush hour and afternoon rush hour. In other words, everyone needs a car at the same time each day, so the ratio of cars : people can’t deviate much from, say, 1:2. Of course, if more people telecommuted (almost certain in the future thanks to better VR, faster broadband, and tech-savvy Millennials reaching middle age and taking over the workplace), and if flexible schedules became more widespread (also likely, but within certain limits since most offices can’t function efficiently unless they have “all hands on deck” for at least a few hours each day), the ratio could go even lower. However, there’s still a bottom limit to how few cars a country will need to provide adequate daily transportation for its people.
  • Private delivery services will get cheaper and faster thanks to autonomous vehicles.
  • Automation will start having a major impact on the global economy. Machines will compensate for the shrinkage of the working-age human population in the developed world. Countries with “graying” populations like Japan and Germany will experience a new wave of economic growth. Demand for immigrant laborers will decrease across the world because of machines.
  • There will be a worldwide increase in the structural unemployment rate thanks to better and cheaper narrow AIs and robots. A plausible scenario would be for the U.S. unemployment rate to be 10%–which was last the case at the nadir of the Great Recession–but for every other economic indicator to be strong. The clear message would be that human labor is becoming decoupled from the economy.
  • Combining all the best AI and robotics technologies, it will be possible to create general-purpose androids that could function better in the real world (e.g. – perform in the workplace, learn new things, interact with humans, navigate public spaces, manage personal affairs) than the bottom 10% of humans (e.g. – elderly people, the disabled, criminals, the mentally ill, people with poor language abilities or low IQs), and in some narrow domains, the androids will be superhuman (e.g. – physical strength, memory, math abilities). Note that businesses will still find it better to employ task-specific, non-human-looking robots instead of general purpose androids. The androids will be very few in number by the end of 2039, and will be technology demonstrators and prototypes that get a lot of media coverage at carefully controlled tech company demo events. They won’t be available for any person to purchase, won’t roam around public spaces, and won’t have important jobs. At a minimum, each one will cost hundreds of thousands of dollars.
  • By the end of this decade, only poor people, lazy people, and conspiracy theorists (like anti-vaxxers) won’t have their genomes sequenced. It will be trivially cheap, and in fact free for many people (some socialized health care systems will fully subsidize it), and enough will be known about the human genome to make it worthwhile to have the information.
  • Computers will be able to accurately deduce a human’s outward appearance based on only a DNA sample. This will aid police detectives, and will have other interesting uses, such as allowing parents to see what their unborn children will look like as adults, or allowing anyone to see what they’d look like if they were of the opposite sex (one sex chromosome replaced). 
  • Trivially cheap gene sequencing and vastly improved knowledge of the human genome will give rise to a “human genome black market,” in which people secretly obtain DNA samples from others, sequence them, and use the data for their own ends. For example, a politician could be blackmailed by an enemy who threatened to publish a list of his genetic defects or the identities of his illegitimate children. Stalkers (of celebrities and ordinary people) would also be interested in obtaining the genetic information of the people they were obsessed with. It is practically impossible to prevent the release of one’s DNA since every discarded cup, bottle, or utensil has a sample. 
  • Markets will become brutally competitive and efficient thanks to AIs. Companies will sharply grasp consumer demand through real-time surveillance, and consumers will be alerted to bargains by their personal AIs and devices (e.g. – your AR glasses will visually highlight good deals as you walk through the aisles of a store). Your personal assistant AIs and robots will look out for your self-interest by countering the efforts of other AIs to sway your spending habits in ways that benefit companies and not you.
  • “Digital immortality” will become possible for average people. Personal assistant AIs, robot servants, and other monitoring devices will be able, through observation alone, to create highly accurate personality profiles of individual humans, and to anticipate their behavior with high fidelity. Voices, mannerisms and other biometrics will be digitally reproducible without any hint of error. Digital simulacra of individual humans will be further refined by having them take voluntary personality tests, and by uploading their genomes, brain scans and other body scans. Even if all of the genetic and biological data couldn’t be made sense of at the moment it was uploaded to an individual’s digital profile, there will be value in saving it since it might be decipherable in the future. (Note that “digital immortality” is not the same as “mind uploading.”)
  • Life expectancy will have increased by a few years thanks to pills and therapies that slightly extend human lifespan. Like, you take a $20 pill each day starting at age 20 and you end up dying at age 87 instead of age 84.
  • Global oil consumption will peak as people continue switching to other power sources.
  • Earliest possible date for the first manned Mars mission.
  • Machines will become as good as professional humans at language translation.
  • Movie subtitles and the very notion of there being “foreign language films” will become obsolete. Computers will be able to perfectly translate any human language into another, to create perfect digital imitations of any human voice, and to automatically apply CGI so that the mouth movements of people in video footage matches the translated words they’re speaking. The machines will also be able to reproduce detailed aspects of an actor’s speech, such as cadence, rhythm, tone and timbre, emotion, and accent, and to convey them accurately in another language.
  • Computers will also be able to automatically enhance and upscale old films by accurately colorizing them, removing defects like scratches, and sharpening or focusing footage (one technique will involve interpolating high-res still photos of long-dead actors onto the faces of those same actors in low-res moving footage). Computer enhancement will be so good that we’ll be able to watch films from the early 20th century with near-perfect image and audio clarity.
  • CGI will get so refined than moviegoers with 20/20 vision won’t be able to see the difference between footage of unaltered human actors and footage of 100% CGI actors.
  • Lifelike CGI and “performance capture” will enable “digital resurrections” of dead actors. Computers will be able to scan through every scrap of footage with, say, John Wayne in it, and to produce a perfect CGI simulacrum of him that even speaks with his natural voice, and it will be seamlessly inserted into future movies. Elderly actors might also license movie studios to create and use digital simulacra of their younger selves in new movies. The results will be very fascinating, but might also worsen Hollywood’s problem with making formulaic content.
  • Machines will be able to imitate the voices of specific humans so accurately that most human listeners won’t be able to tell the difference. Those that can reliably detect any difference will find it very faint.
  • Smartphone apps will be able to remotely monitor a person’s vital statistics and to quickly derive a wealth of data about things like their emotional state, health, age, and truthfulness from factors like their heart rate, breathing pattern, body movements, microexpressions, and speech patterns.
  • Tiny cameras that can capture and transmit high resolution footage will be available for a few dollars apiece. A device the size of a sugar cube that has enough memory and battery life to record video footage for several hours would fit the bill.
  • China’s military will get strong enough to defeat U.S. forces in the western Pacific. This means that, in a conventional war for control of the Spratly Islands and/or Taiwan, China would have >50% odds of winning. This shift in the local balance of power does not mean China will start a conflict. 
  • The quality and sophistication of China’s best military technology will surpass Russia’s best technology in all or almost all categories. However, it will still lag the U.S. 

2040s

  • The world and peoples’ outlooks and priorities will be very different than they were in 2019. Cheap renewable energy will have become widespread and totally negated any worries about an “energy crisis” ever happening, except in exotic, hypothetical scenarios about the distant future. There will be little need for immigration thanks to machine labor and cross-border telecommuting (VR, telepresence, and remote-controlled robots will be so advanced that even blue-collar jobs involving manual labor will be outsourced to workers living across borders). Moreover, there will be a strong sense in most Western countries that they’re already “diverse enough,” and that there are no further cultural benefits to letting in more foreigners since large communities of most foreign ethnic groups will already exist within their borders. There will be more need than ever for strong social safety nets and entitlement programs thanks to technological unemployment. AI will be a central political and social issue. It won’t be the borderline sci-fi, fringe issue it was in 2019.
  • Automation, mass unemployment, wealth inequalities between the owners of capital and everyone else, and differential access to expensive human augmentation technologies (like genetic engineering) will produce overwhelming political pressure for some kind of wealth redistribution and social safety net expansion. Countries that have diligently made small, additive reforms as necessary over the preceding decades will be untroubled. However, countries that failed to adapt their political and economic systems will face upheaval.
  • 2045 will pass without the Technological Singularity happening. Ray Kurzweil will either celebrate his 97th birthday in a wheelchair, or as a popsicle frozen at the Alcor Foundation.
  • Supercomputers that match or surpass upper-level estimates of the human brain’s computational capabilities will cost a few hundred thousand to a few million dollars apiece, meaning tech companies and universities will be able to afford large numbers of them for AI R&D projects, accelerating progress in the field. Hardware will no longer be the limiting factor to building AGI. If it hasn’t been built yet, it will be due to failure to figure out how to arrange the hardware in the right way to support intelligent thought, and/or to a failure to develop the necessary software. 
  • With robots running the economy, it will be common for businesses to operate 24/7: restaurants will never close, online orders made at 3:00 am will be packed in boxes by 3:10 am, and autonomous delivery trucks will only stop to refuel, exchange cargo, or get preventative maintenance.
  • Advanced energy technology, robot servants, 3D printers, telepresence, and other technologies will allow people to live largely “off-grid” if they choose, while still enjoying a level of comfort that 2019 people would envy.
  • Robot servants will be common in upper-income and middle-class households across the developed world. Some will be function-specific, like autonomous lawn mowers, while others will be multifunctional, like robot butlers. They will work more slowly than humans and will make mistakes more often, but nevertheless, they will save their human owners many hours of work each week. A high-quality multifunction robot servant will cost $5,000 – $20,000 in today’s money. In other words, cheaper than a new car, but still a significant investment of money.
  • Androids will be significantly better than they were in the 2030s, and aspects of their physiques, intelligence, and capabilities will overlap even more with humans, but they still won’t be able to pass as one of us in normal situations. If you could examine one at very close distance, you would see that its skin and other external features were less detailed than those of real humans. Their body movements will be clumsier and more limited than the average human’s, probably leaving them with the same overall reflexes, nimbleness, balance, and speed as an elderly human. They will also lack the battery life to function for a whole work day in physically demanding occupations.
  • Recycling will become much more efficient and practical thanks to house robots properly cleaning, sorting, and crushing/compacting waste before disposing of it. Automated sorting machines at recycling centers will also be much better than they are today. Today, recycling programs are hobbled because even well-meaning humans struggle to remember which of their trash items are recyclable and which aren’t since the acceptable items vary from one municipality to the next, and as a result, recycling centers get large amounts of unusable material, which they must filter out at great cost. House robots would remember it perfectly.
  • Thanks to this diligence, house robots will also increase backyard composting, easing the burden on municipal trash services. 
  • Genetic engineering of offspring becomes about as common among richer people as IVF is among them in 2023. The engineered offspring aren’t “superhumans”–they’re slightly better than they would have been without technological intervention.
  • It will be common for cities, towns and states to heavily restrict or ban human-driven vehicles within their boundaries. A sea change in thinking will happen as autonomous cars become accepted as “the norm,” and human-driven cars start being thought of as unusual and dangerous.
  • There will be something that could be called a “self-driving RV vacation industry” wherein a person would rent a self-driving RV that would be programmed to take them on a multi-day tour of some area, hitting all the important sights. At each one, a virtual tour guide that the person could see, hear and interact with through smart glasses would lead them around on foot.
  • Over 90% of new car sales in developed countries will be for electric vehicles. Just as the invention of the automobile transformed horses into status goods used for leisure, the rise of electric vehicles will transform internal combustion vehicles into a niche market for richer people. 
  • A global “family tree” showing how all humans are related will be built using written genealogical records and genomic data from the billions of people who have had their DNA sequenced. It will become impossible to hide illegitimate children, and it will also become possible for people to find “genetic doppelgangers”–other people they have no familial relationship to, but with whom, by some coincidence, they share a very large number of genes. 
  • Improved knowledge of human genetics and its relevance to personality traits and interests will strengthen AI’s ability to match humans with friends, lovers, and careers. Rising technological unemployment will create a need for machines to match human workers with the remaining jobs in as efficient a manner as possible.
  • People with distinctive personalities (particularly vibrant, funny, or sexy) will routinely sell “digital copies” of themselves for other people to download and use as AI personal assistants. This will be analogous to today’s ability to select different voices for personal GPS devices. Additionally, users will be able to tweak “base versions” of downloaded personalities to suit their unique preferences. 
  • The digital personalities of fictitious people, like movie and cartoon characters, and of long-dead people, will also be downloadable. 
  • Realistic robot sex bots that can move and talk will exist. They won’t perfectly mimic humans, but will be “good enough” for most users. Using them will be considered weird and “for losers” at first, but in coming decades it will go mainstream, following the same pattern as Internet dating. [If we think of sex as a type of task, and if we agree that machines will someday be able to do all tasks better than humans, then it follows that robots will be better than humans at sex.]  
  • Augmented reality contact lenses will give people superhuman vision.
  • 3D TVs will improve. Among other things, multiple viewers watching the same TV from different viewing angles will experience the 3D visual effect. 
  • Any person will be able to use his personal technologies to create a highly immersive audiovisual experience almost anywhere. For example, a person’s computer glasses could simulate the experience of being in an IMAX movie theater. Alternatively, the person could use his smartphone or another device to beam video images against a wall, creating an ad hoc theater for real. Major improvements to the price-performance and energy efficiency of LEDs and lasers will let small personal devices to have inbuilt light projectors that match the quality of professional-quality projectors that cost thousands of dollars today.
  • There will be drones that can use facial recognition and other forms of recognition to autonomously track down specific people and kill them.
  • At least one major military will be using some type of combat robot (whether it is airborne, seaborne, or terrestrial) that is empowered to fire on human enemies autonomously. 

2050s

  • This is the earliest possible time that AGI/SAI will be invented. It will not be able to instantly change everything in the world or to initiate a Singularity, but it will rapidly grow in intelligence, wealth, and power. It will probably be preceded by successful computer simulations of the brains of progressively more complex model organisms, such as flatworms, fruit flies, and lab rats.
  • Humans will be heavily dependent upon their machines for almost everything (e.g. – friendship, planning the day, random questions to be answered, career advice, legal counseling, medical checkups, driving cars), and the dependency will be so ingrained that humans will reflexively assume that “The Machines are always right.” Consciously and unconsciously, people will yield more and more of their decision-making and opinion-forming to machines, and find that they and the world writ large are better off for it. This will be akin to having an angel on your shoulder watching your surroundings and watching you, and giving you constructive advice all the time. 
  • In the developed world, less than 50% of people between age 22 and 65 will have gainful full-time jobs. However, if unprofitable full-time jobs that only persist thanks to government subsidies (such as someone running a small coffee shop and paying the bills with their monthly UBI check) and full-time volunteer “jobs” (such as picking up trash in the neighborhood) are counted, most people in that age cohort will be “doing stuff” on a full-time basis.  
  • The doomsaying about Global Warming will start to quiet down as the world’s transition to clean energy hits full stride and predictions about catastrophes from people like Al Gore fail to pan out by their deadlines. Sadly, people will just switch to worrying about and arguing about some new set of doomsday prophecies about something else.
  • By almost all measures, standards of living will be better in 2050 than today. People will commonly have all types of wonderful consumer devices and appliances that we can’t even fathom. However, some narrow aspects of daily life are likely to worsen, such as overcrowding and further erosion of the human character. Just as people today have short memories and take too many things for granted, so shall people in the 2050s fail to appreciate how much the standard of living has risen since today, and they will ignore all the steady triumphs humanity has made over its problems, and by default, people will still believe the world is constantly on the verge of collapsing and that things are always getting worse.
  • Cheap desalination will provide humanity with unlimited amounts of drinking water and end the prospect of “water wars.” 
  • Mass surveillance and ubiquitous technology will have minimized violent crime and property crime in developed countries: It will be almost impossible to commit such crimes without a surveillance camera or some other type of sensor detecting the act, or without some device recording the criminal’s presence in the area at the time of the act. House robots will contribute by effectively standing guard over your property at night while you sleep. 
  • It will be common for people to have health monitoring devices on and inside of their bodies that continuously track things like their heart rate, blood pressure, respiration rate, and gene expression. If a person has a health emergency or appears likely to have one, his or her devices will send out a distress signal alerting EMS and nearby random citizens. If you walked up to such a person while wearing AR glasses, you would see their vital statistics and would receive instructions on how to assist them (i.e. – How to do CPR). Robots will also be able to render medical aid. 
  • Cities and their suburbs across the world will have experienced massive growth since 2019. Telepresence, relatively easy off-grid living, and technological unemployment will not, on balance, have driven more people out of metro areas than have migrated into them. Farming areas full of flat, boring land will have been depopulated, and many farms will be 100% automated. The people who choose to leave the metro areas for the “wilderness” will concentrate in rural areas (including national parks) where the climate is good, the natural scenery is nice, and there are opportunities for outdoor recreation. Real estate prices will, in inflation-adjusted terms, be much higher in most metro areas and places with natural beauty than they were in 2020 because the “supply” of those prime locations is almost fixed, whereas the demand for them is elastic and will rise thanks to population growth, rising incomes, and the aforementioned technology advancements.
  • Therapeutic cloning and stem cell therapies will become useful and will effectively extend human lifespan. For example, a 70-year-old with a failing heart will be able to have a new one grown in a lab using his own DNA, and then implanted into his chest to replace the failing original organ. The new heart will be equivalent to what he had when at age 18 years, so it will last another 52 years before it too fails. In a sense, this will represent age reversal to one part of his body. In a sense, this will represent age reversal to one part of his body.
  • As a result of the above technologies, it will be much rarer for people in rich countries to die waiting for organ transplants than it is now, in 2022.
  • The first healthy clone of an adult human will be born.
  • Many factories, farms, and supply chains will be 100% automated, and it will be common for goods to not be touched by a human being’s hands until they reach their buyers. Robots will deliver Amazon packages to your doorstep and even carry them into your house. Items ordered off the internet will appear inside your house a few hours later, as if by magic. 
  • Smaller versions of the robots used on automated farms will be available at low cost to average people, letting them effortlessly create backyard gardens. This will boost global food production and let people have greater control over where their food comes from and what it contains. 
  • The last of America’s Cold War-era weapon platforms (e.g. – the B-52 bomber, F-15 fighter, M1 Abrams tank, Nimitz aircraft carrier) will finally be retired from service. There will be instances where four generations of people from the same military family served on the same type of plane or ship. 
  • Cheap guided bullets, which can make midair course changes and be fired out of conventional man-portable rifles, will become common in advanced armies. 
  • Personal “cloaking devices” made of clothes studded with pinhole cameras and thin, flexible sheets of LEDs, colored e-ink, or some metamaterial with similar abilities will be commercially available. The cameras will monitor the appearance of the person’s surroundings and tell the display pixels to change their colors to match.
  • The “cloaking” outfits will also have benign applications related to fashion and everyday utility. People wearing them could use them to display morphing patterns and colors of their choice. It would even be possible to become a “walking TV.” The pixels could also be made to glow bright white, allowing the wearer to turn any part of his body into a flashlight. Ski masks made of the same material would let wearers change their facial features, fooling most face recognition cameras and certainly fooling the unaided eyes of humans, at least at a distance.
  • Powered exoskeletons will become practical for a wide range of applications, mainly due to improvements in batteries. For example, a disabled person could use a lightweight exoskeleton with a battery the size of a purse to walk around for a whole day on a single charge, and a soldier in a heavy-duty exoskeleton with a large backpack battery could do a day of marching on a single charge. (Note: Even though it will be technologically possible to equip infantrymen with combat exoskeletons, armies might reject the idea due to other impracticalities.)
  • There will be no technological or financial barrier to building powered combat exoskeletons that have cloaking devices. 
  • The richest person alive will achieve a $1 trillion net worth.
  • It will be technologically and financially feasible for small aircraft to produce zero net carbon emissions. The aircraft might use conventional engines powered by carbon-neutral synthetic fossil fuels that cost no more than normal fossil fuels, or they might have electric engines and very energy-dense batteries or fuel cells.
  • Cheap guided bullets, capable of midair course changes to hit targets and of being fired out of conventional rifles, will become common in advanced armies. (One or two degrees of course change per 100 meters of bullet travel is realistic. ) Practical, affordable rifles capable of limited self-aiming will also exist (similar to the “Smartgun” from the movie Aliens). Thanks to these technologies, an ordinary rifleman of the 2050s will be like the snipers of today.

2060s

  • Machines will be better at satisfyingly matching humans with fields of study, jobs, friends, romantic partners, hobbies, and daily activities than most humans can do for themselves. Machines themselves will make better friends, confidants, advisers, and even lovers than humans. Additionally, machines will be smarter and more skilled at humans in most areas of knowledge and types of work. A cultural sea change will happen, in which most humans come to trust, rely upon, defend, and love machines.
  • House robots and human-sized worker robots will be as strong, agile, and dexterous as most humans, and their batteries will be energy-dense enough to power them for most of the day. A typical American family might have multiple robot servants that physically follow around the humans each day to help with tasks. The family members will also be continuously monitored and “followed” by A.I.s embedded in their portable personal computing devices and possibly in their bodies. 
  • Cheap home delivery of groceries, robot chefs, and a vast trove of free online recipes will enable people in average households to eat restaurant-quality meals at home every day, at low cost. Predictive algorithms that can appropriately choose new meals for humans based on their known taste preferences and other factors will determine the menu, and many people will face a culinary “satisfaction paradox.”
  • Average people will have access to high-quality meals that only rich people can have today at fancy restaurants.
  • Machines will understand humans individually and at the species level better than humans understand themselves. They will have highly accurate personality models of most humans along with a comprehensive grasp of human sociology, human decision-making, human psychology, human cognitive biases, and human nature, and will pool the information to accurately predict human behavior. A nascent version of a 1:1 computer simulation of the Earth–with the human population modeled in great detail–will be created. An important application will be economic modeling and forecasting. 
  • Machines will be better teachers than most trained humans. The former will have much sharper grasps of their pupils’ individual strengths, weaknesses, interests, and learning styles, and will be able to create and grade tests in a much fairer and less biased manner than humans. Every person will have his own tutor. 
  • There will be a small, permanent human presence on the Moon.
  • If a manned Mars mission hasn’t happened yet, then there will be intense pressure to do so by the centennial of the first Moon landing (1969).
  • The worldwide number of supercentenarians–people who are at least 110 years old–will be sharply higher than it was in 2019: Their population size could be 10 times bigger or more. 
  • Advances in a variety of technologies will make it possible to cryonically freeze humans in a manner that doesn’t pulverize their tissue. However, the technology needed to safely thaw them out won’t be invented for decades. 
  • China will effectively close the technological, military, and standard of living gaps with other developed countries. Aside from the unpleasantness of being a more crowded place, life in China won’t be worse overall than life in Japan or the average European country. Importantly, China’s pollution levels will be much lower than they are today thanks to a variety of factors.
  • Small drones (mostly aerial) will have revolutionized warfare, terrorism, assassinations, and crime and will be mature technologies. An average person will be able to get a drone of some kind that can follow his orders to find and kill other people or to destroy things.
  • Countermeasures against those small drones will also have evolved, and might include defensive drones and mass surveillance networks to detect drone attacks early on. The networks would warn people via their body-worn devices of incoming drone attacks or of sightings of potentially hostile drones. The body-worn devices, such as smartphones and AR glasses, might even have their own abilities to automatically detect drones by sight and sound and to alert their wearers.
  • At least one large, manned spaceship that is designed to stay in space will exist, probably in the form of a reusable ferry that moves people between Earth and Mars.

2070s

  • 100 years after the U.S. “declared war” on cancer, there still will not be a “cure” for most types of cancer, but vaccination, early detection, treatment, and management of cancer will be vastly better, and in countries with modern healthcare systems, most cancer diagnoses will not reduce a person’s life expectancy. Consider that diabetes and AIDS were once considered “death sentences” that would invariably kill people within a few years of diagnosis, until medicines were developed that transformed them into treatable, chronic health conditions. 
  • Hospital-acquired infections will be far less of a problem than they are in 2020 thanks to better sterilization practices, mostly made possible by robots.
  • It will be technologically and financially feasible for large commercial aircraft to produce zero net carbon emissions. The aircraft might use conventional engines powered by synthetic fossil fuels, or they might have electric engines and very energy-dense batteries or fuel cells. 
  • Digital or robotic companions that seem (or actually are) intelligent, funny, and loving will be easier for humans to associate with than other humans.
  • Technology will enable the creation of absolute surveillance states, where all human behavior is either constantly monitored or is inferred with high accuracy based on available information. Even a person’s innermost thoughts will be knowable thanks to technologies that monitor him or her for the slightest things like microexpressions, twitches, changes in voice tone, and eye gazes. When combined with other data regarding how the person spends their time and money, it will be possible to read their minds. The Thought Police will be a reality in some countries.  
  • Thanks to advanced lab synthesis of foods, new spices, hybrid fruits and vegetables, and meats with entirely new taste profiles will be brought into existence. Swaths of the “landscape of all possible flavors” that are currently unexplored will be.
  • Many heavily automated farms (including indoor farms and gardens on suburban plots of land) will produce food that is noticeably tastier and measurably more nutritious that most of today’s food because the advanced farms won’t need to use pesticides or to favor crop varieties that are hardy enough to endure transport over long supply chains. At low cost and for little effort, communities and individuals with small amounts of land will be able to meet their own food needs locally. People who value “natural” lifestyles might, ironically, find it most beneficial to rely on robots to make their food for them.
  • Glasses-free 3D TVs will be almost fully developed technologies with few performance limitations. 

2100

  • Humans probably won’t be the dominant intelligent life forms on Earth.
  • Latest possible time that AGI/SAI will be invented. By this point, computer hardware will so powerful that we could do 1:1 digital simulations of human brains. If our AI still falls far short of human-like general intelligence and creativity, then it might be that only organic substrates have the necessary properties to support them.
  • The worst case scenario is that AGI/Strong AI will have not been invented yet, but thousands of different types of highly efficient, task-specific Narrow AIs will have (often coupled to robot bodies), and they will fill almost every labor niche better than human workers ever could (“Death by a Thousand Cuts” job automation scenario). Humans grow up in a world where no one has to work, and the notion of drudge work, suffering through a daily commute, and involuntarily waking up at 6:00 am five days a week is unfathomable. Every human will have machines that constantly monitor them or follow them around, and meet practically all their needs.
  • Telepresence technology will also be very advanced, allowing humans to do nearly any task remotely, from any other place in the world, in safety and comfort. This will include cognitive tasks and hands-on tasks. If any humans still have jobs, they’ll be able to work from anywhere.
  • Sophisticated narrow AI will be integrated into the telepresence technology, providing human workers with real-time assistance with tasks. An illustrative scenario would have a human in Nigeria using a VR rig to remotely control a robot that is fixing an air conditioner in England. Software programs monitoring the live video feed would recognize all of the objects in the robot’s field of view and would also understand what the human worker was trying to accomplish, and the programs would help him by visually highlighting tools or air conditioner components, or by giving him verbal advice on what to do. 
  • The use of robotic surrogate bodies for remote work will also erase any employment gaps caused by physical strength and endurance differences between the sexes and between the elderly and the young. Small men, old people, and women of average stature will be just as good at performing hard manual labor as big men. The easing of physical strain associated with work will also allow people to work past today’s retirement age. However, most serious physical work will be best left to autonomous machines.
  • The world could in many ways resemble Ray Kurzweil’s predicted Post-Singularity world. However, the improvements and changes will have accrued thanks to decades of AGI/Strong AI steady effort. Everything will not instantly change on DD/MM/2045 as Kurzweil suggests it will.
  • Hundreds of millions, and possibly billions, of “digitally immortal avatars” of dead humans will exist, and you will be able to interact with them through a variety of means (in FIVR, through devices like earpieces and TV screens, in the real world if the avatar takes over an android body resembling the human it was based on). 
  • A weak sort of immortality will be available thanks to self-cloning, immortal digital avatars, and perhaps mind uploading. You could clone yourself and instruct your digital avatar–which would be a machine programmed with your personality and memories–to raise the clone and ensure it developed to resemble you. Your digital avatar might have an android body or could exist in a disembodied state. 
  • It will be possible to make clones of humans using only their digital format genomic data. In other words, if you had a .txt file containing a person’s full genetic code, you could use that by itself to make a living, breathing clone. Having samples of their cells would not be necessary. 
  • The “DNA black market” that arose in the 2030s will pose an even bigger threat since it will be now possible to use DNA samples alone or their corresponding .txt files to clone a person or to produce a sperm or egg cell and, in turn, a child. Potential abuses include random people cloning or having the children of celebrities they are obsessed with, or cloning billionaires in the hopes of milking the clones for money. Important people who might be targets of such thefts will go to pains to prevent their DNA from being known. Since dead people have no rights, third parties might be able to get away with cloning or making gametes of the deceased.
  • Life expectancy escape velocity and perhaps medical immortality will be achieved. It will come not from magical, all-purpose nanomachines that fix all your body’s cells and DNA, but from a combination of technologies, including therapeutic cloning of human organs, cybernetic replacements for organs and limbs, and stem cell therapies that regenerate ageing tissues and organs inside the patient’s body. The treatments will be affordable in large part thanks to robot doctors and surgeons who work almost for free, and to medical patents expiring.
  • All other aspects of medicine and healthcare will have radically advanced. There will be vaccines and cures for almost all contagious diseases. We will be masters of human genetic engineering and know exactly how to produce people that today represent the top 1% of the human race (holistically combining IQ, genetic health, physical attractiveness, and likable/prosocial personality traits). However, the value of even a genius-IQ human will be questionable since intelligent machines will be so much smarter.
  • Augmentative cybernetics (including direct brain-to-computer links) will exist and be in common use.
  • While the traditional, “pure” races of humans will all still exist, notions of “race” and racial identity will be scrambled by the large numbers of mixed-race people who will be alive, and by widespread genetic engineering that will give people combinations of physical traits that were almost unachievable through normal human breeding. Examples might include black people with naturally blue eyes, or East Asians with naturally blonde hair. (Voluntary genetic engineering will also ensure that redheads don’t ever die out.) Some people will even have totally new genes, either synthesized in labs or borrowed from animals, that give them physical traits not found in any preexisting human race, like red eyes or purple hair.
  • Full-immersion virtual reality (FIVR) will exist wherein AI game masters constantly tailor environments, NPCs and events to suit each player’s needs and to keep them entertained. Every human will have his own virtual game universe where he’s #1. With no jobs in the real world to occupy them, it’s quite possible that a large fraction of the human race will willingly choose to live in FIVR. (Related to the satisfaction paradox) Elements of these virtual environments could be pornographic and sexual, allowing people to gratify any type of sexual fetish or urge with computer-generated scenarios and partners. 
  • More generally, AIs and humans whose creativity is turbocharged by machines will create enjoyable, consumable content (e.g. – films, TV shows, songs, artwork, jokes, new types of meals) faster than non-augmented humans can consume it. As a simple example of what this will be like, assume you have 15 hours of free time per day, that you love spending it listening to music, and each day, your favorite bands produce 16 hours worth of new songs that you really like.
  • TVs will be capable of true holography, with no visual distortions or flaws. 
  • The vast majority of unaugmented human beings will no longer be assets that can invent things and do useful work: they will be liabilities that do (almost) everything worse than intelligent machines and augmented humans. Ergo, the size of a nation’s human population will subtract from its economic and military power, and radical shifts in geopolitics are possible. Geographically large but sparsely populated countries like Russia, Australia and Canada might become very strong.
  • The transition to green energy sources will be complete, and humans will no longer be net emitters of greenhouse gases. The means will exist to start reducing global temperatures to restore the Earth to its pre-industrial state, but people will resist because they will have gotten used to the warmer climate. People living in Canada and Russia won’t want their countries to get cold again.
  • Synthetic meat will taste no different from animal meat, and will be at least as cheap to make. The raising and/or killing of animals for food will be be illegal in many countries, and trends will clearly show the practice heading for worldwide ban. 
  • Meats that are expensive and/or rare today, like Kobe beef steaks, snakes, bats, or even human flesh, will be cheap and widely available thanks to meat synthesis technology. 
  • Cheap, synthetic chicken eggs will also exist and will taste no different from natural eggs. 
  • The means to radical alter human bodies, alter memories, and alter brain structures will be available. The fundamental bases of human existence and human social dynamics will change unpredictably once differences in appearance/attractiveness, intelligence, and personality traits can be eliminated at will. Individuals won’t be defined by fixed attributes anymore. 
  • Brain implants will make “telepathy” possible between humans, machines and animals. Computers, sensors and displays will be embedded everywhere in the built environment and in nature, allowing humans with brain implants to interface with and control things around them through thought alone. 
  • Brain implants and brain surgeries will also be used to enhance IQ, change personality traits, and strengthen many types of skills. 
  • Using brain-computer interfaces, people will be able to make sophisticated songs and pieces of artwork with their thoughts alone. 
  • Technologically augmented humans and androids will have many abilities and qualities that ancient people considered “Godlike,” such as medical immortality, the ability to control objects by thought, telepathy, perfect memories, and superhuman senses.
  • Flying cars designed to carry humans could be common, but they will be flown by machines, not humans. Ground vehicles will retain many important advantages (fuel efficiency, cargo capacity, safety, noise level, and more) and won’t become obsolete. Instead of flying cars, it’s more likely that there will be millions of small, autonomous helicopters and VTOL aircraft that will cheaply ferry people through dense, national networks of helipads and airstrips. Autonomous land vehicles would take take passengers to and from the landing sites. (https://www.militantfuturist.com/why-flying-cars-never-took-off-and-probably-never-will/
  • The notion of vehicles (e.g. – cars, planes, and boats) polluting the air will be an alien concept. 
  • Advanced nanomachines could exist.
  • Vastly improved materials and routine use of very advanced computer design simulations (including simulations done in quantum computers) will mean that manufactured objects of all types will be optimally engineered in every respect, and might seem to have “magical” properties. For example, a car will be made of hundreds of different types of alloys, plastics, and glass, each optimized for a different part of the vehicle, and car recalls will never happen since the vehicles will undergo vast amounts of simulated testing in every conceivable driving condition in 1:1 virtual simulations of the real world. 
  • Design optimization and the rise of AGI consumption will virtually eliminate planned obsolescence. Products that were deliberately engineered to fail after needlessly short periods, and “new” product lines that were no better than what they replaced, but had non-interchangeable part sizes would be exposed for what they were, and AGI consumers would refuse to buy them. Production will become much more efficient and far fewer things will be thrown out. 
  • Relatively cheap interplanetary travel (probably just to Mars and to space stations and moons that are about as far as Mars) will exist.
  • Androids that are outwardly indistinguishable from humans will exist, and humans will hold no advantages over them (e.g. – physical dexterity, fine motor control, appropriateness of facial expressions, capacity for creative thought). Some androids will also be indistinguishable to the touch, meaning they will seem to be made of supple flesh and will be the same temperature as human bodies. However, their body parts will not be organic.
  • Sex robots will be indistinguishable from humans.
  • Android assassins like the T-800s from the Terminator films will exist. They will look identical to humans, will be able to blend into human populations, track down targets, and kill or abduct them. As in the films, these androids will be stronger, more durable, and more skilled with weapons than we are.
  • Robots that are outwardly identical to sci-fi and fantasy characters and extinct animals, like grey aliens, elves, fairies, giant house cats, and dinosaurs, will exist and will occasionally be seen in public. Some weird person will want their robot butler to look like bigfoot, and at least one hobbyist will build a life-sized robotic dragon that can fly and spit fire.
    https://www.mentalfloss.com/article/503967/could-game-throness-dragons-really-fly-we-asked-some-experts 
  • Humans interested in extreme body modifications will be able to surgically alter themselves to look like many of those creatures.
  • Machines that are outwardly indistinguishable from animals will also exist, and they will have surveillance and military applications. 
  • Drones, miniaturized smart weapons, and AIs will dominate warfare, from the top level of national strategy down to the simplest act of combat. The world’s strongest military could, with conventional weapons alone, destroy most of the world’s human population in a short period of time. 
  • It will be possible for one country to build an army of killer robots that equals the size of the whole human population. 
  • The construction and daily operation of prisons will have been fully automated, lowering the monetary costs of incarceration. As such, state prosecutors and judges will no longer feel pressure to let accused criminals have plea deals or to give them shorter prison sentences to ease the burdens of prison overcrowding and high overhead costs. 
  • The term “millionaire” will fall out of use in the U.S. and other Western countries since inflation will have rendered $1 million USD only as valuable as $90,000 USD was in 2019 (assuming a constant inflation rate of 3.0%).
  • There will still be major wealth and income inequality across the human race. However, wealth redistribution, better government services, advances in industrial productivity, and better technologies will ensure that even people in the bottom 1% have all their basic and intermediate life needs meet. In many ways, the poor people of 2100 will have better lives than the rich people of 2020.

2101 – 2200 AD

  • Humans will definitely stop being the dominant intelligent life forms on Earth. 
  • Many “humans” will be heavily augmented through genetic engineering, other forms of bioengineering, and cybernetics. People who outwardly look like the normal humans of today might actually have extensive internal modifications that give them superhuman abilities. Non-augmented, entirely “natural” humans like people in 2019 will be looked down upon in the same way you might today look at a very low IQ person with sensory impairments. Being forced by your biology to incapacitate yourself for 1/3 of each day to sleep will be tantamount to having a medical disability. 
  • Due to a reduced or nonexistent need for sleep among intelligent machines and augmented humans and to the increased interconnectedness of the planet, global time zones will become much less relevant. It will be common for machines, humans, businesses, and groups to use the same clock–probably Coordinated Universal Time (UTC)–and for activity to proceed on a 24/7 basis, with little regard of Earth’s day/night cycle. 
  • Physical disabilities and defects of appearance that cause untold anguish to people in 2019 will be easily and cheaply fixable. For example, male-pattern baldness and obesity will be completely ameliorated with minor medical interventions like pills or outpatient surgery. Missing or deformed limbs will be easily replaced, all types of plastic surgery (including sex reassignment) will be vastly better and cheaper than today, and spinal cord damage will be totally repairable. The global “obesity epidemic” will disappear. Transsexual people will be able to seamlessly alter their bodies to conform with their preferred genders, or to alter their brains so their gender identities conform with the bodies they were born with. 
  • These advanced body modification abilities will partly be thanks to medical micro- and nanomachines that will be able to travel through a person’s bloodstream and flesh, and to precisely kill small groups of cells (including bone) or stimulate cell proliferation. Over the course of a few sessions, a person could finely sculpt their nose, cheeks or private parts to match whatever they wanted. Genetic engineering for beauty will probably become less important as a result. 
  • All sleep disorders will be curable thanks to cybernetics that can use electrical pulses to quickly initiate sleep states in human brains. The same kinds of technologies will also reduce or eliminate the need for humans to sleep, and for people to control their dreams. 
  • Brain-computer interfaces will let people control, pre-program, and, to a limited extent, record their dreams. 
  • Through electrical signaling and chemical releases, the brain implants will be able to induce any type of mental or emotional state. This will include altered states of consciousness, like lucid dreaming, meditation, or intoxication (as a result, mind-altering drugs could become obsolete). A person might have to go through a “calibration period” where the implants would monitor and record their brain activity while they experienced different things, and then, the user would experiment with the implant to see how well it could induce the recorded brain states. Through a process of guided trial and error, they would become masters of their own minds. This ability would make human life richer and more productive, as people could have valuable experiences during portions of the day when they would otherwise be bored or “switched off,” and to even do useful problem-solving tasks in their sleep. Alternatively, the ability to induce feelings of blinding pleasure could lead to a major addiction problem among humans, and widen the productivity/usefulness gap between our species and intelligent machines.
  • Direct brain-to-computer interfaces and other advanced technologies will let humans enter virtual reality worlds that seem no different from the real world (the “Matrix scenario”), and to remotely control robot bodies located anywhere in the real world, with fully lifelike levels of sensory richness and fusion. Able to control perfect robot bodies of any design in the real world, and to take on any form in virtual worlds, some humans will have no use for real, fixed-form bodies, and will dispense with them, instead existing as “brains in jars.”  
  • Some “humans” will lack fixed, corporeal forms; they will be able to extensively modify their original bodies or to switch bodies at will. A person could take the form of something nonhuman, like a terrestrial squid. They exist as disembodied, cybernetically enhanced brains in life support containers that can assume control over any physical bodies they want, either by remotely controlling them through the internet, or by physically inserting their life support containers into matching slots in the bodies.
  • The line between “biological” and “synthetic” will blur as artificial objects take on some of the properties of organic matter and as they are integrated into originally biological life forms. Examples include humans who have artificial limbs and organs that are soft, supple, and interface with their nervous systems as well as natural limbs and organs; humans whose bodies contain special lines of cells meant to save and store non-genomic data as DNA; cybernetic implants that are soft and capable of growing inside a person’s body; machines that can heal their own bodies; and microscopic, self-reproducing machines that can thrive indefinitely in human bodies, in wild animals, or in other life forms and even be transferred between individuals, like benign diseases.
  • Almost all of today’s diseases will be cured.
  • The means to halt and reverse human aging will be created. The human population will come to be dominated by people who are eternally young and beautiful. 
  • Humans and machines will be immortal. Intelligent beings will find it terrifying and tragic to contemplate what it was like for humans in the past, who lived their lives knowing they were doomed to deteriorate and die. 
  • Extreme longevity, better reproductive technologies that eliminate the need for a human partner to have children, and robots that do domestic work and provide companionship (including sex) will weaken the institution of marriage more than any time in human history. An indefinite lifetime of monogamy will be impossible for most people to commit to. 
  • At reasonable cost, it will be possible for women to create healthy, genetically related children at any point in their lives, and without using the 2019-era, pre-menopausal egg freezing technique. For example, a 90-year-old, menopausal woman will be able to use reproductive technologies to make a baby that shares 50% of her DNA. 
  • Opposite-sex human clones will exist. Such a clone would share 22-1/2 of their 23 chromosome pairs with their “original.” Only the final sex chromosome, which would be either a “Y” or a second “X”, would differ.  
  • Immortality, the automation of work, and widespread material abundance will completely transform lifestyles. With eternity to look forward to, people won’t feel pressured to get as rich as possible as quickly as possible. As stated, marriage will no longer be viewed as a lifetime commitment, and serial monogamy will probably become the norm. Relationships between parents and offspring will change as longevity erases the disparities in generational outlook and maturity that traditionally characterize parent-child interpersonal dynamics (e.g. – 300-year-old dad doesn’t know any better than his 270-year-old son). The “factory model” of public education–defined by conformity, rote memorization, frequent intelligence testing, and curricula structured to serve the needs of the job market–will disappear. The process of education will be custom-tailored to each person in terms of content, pacing, and style of instruction. Students will be much freer to explore subjects that interest them and to pursue those that best match their talents and interests. 
  • Radically extended human lifespans mean it will become much more common to have great-grandparents around. A cure for aging will also lead to families where members separated in age by many decades look the same age and have the same health. Additionally, older family members won’t be burdensome since they will be healthy.
  • The human population might start growing again thanks to medical immortality, to advanced fertility technologies including artificial wombs and cloning, and to robots that help raise children, reducing the workload for human parents. The human race won’t die out thanks to persistently low birthrates.
  • Thanks to radical genetic engineering, there will be “human-looking,” biological people among us that don’t belong to our species, Homo sapiens. Examples could include engineered people who have 48 chromosomes instead of 46, people whose genomes have been shortened thanks to the deletion of junk DNA, or people who look outwardly human but who have radically different genes within their 46 chromosomes, so they have different numbers or arrangements of internal organs (like two hearts), or even new types of internal organs, such as bird-like lung . Such people wouldn’t be able to naturally breed with Homo sapiens, and would belong to new hominid species. 
  • Extinct species for which we have DNA samples (ex – from passenger pigeons on display in a museum) will “resurrected” using genetic technology.
  • The global mass surveillance network will encompass unpopulated areas and wilderness areas, protecting animals from poaching. Extinctions of large, wild animals will stop.
  • The technology for safely thawing humans out of cryostasis and returning them to good health will be created. 
  • Suspended animation will become a viable alternative to suicide. Miserable people could “put themselves under,” with instructions to not be revived until the ill circumstances that tormented them had disappeared or until cures for their mental and medical problems were found. 
  • A sort of “time travel” will become possible thanks to technology. Suspended animation will let people turn off their consciousnesses until any arbitrary date in the future. From their perspective, no time will have elapsed between being frozen and being thawed out, even if hundreds of years actually passed between those two events, meaning the suspended animation machine will subjectively be no different from a time machine to them. FIVR paired with data from the global surveillance networks will let people enter highly accurate computer simulations of the past. The data will come from sources like old maps, photos, videos, and the digital avatars of people, living and dead. The computers simulations of past eras will get less accurate as the dates get more distant and the data scarcer.
  • It will be possible to upload human minds to computers. The uploads will not share the same consciousness as their human progenitors, and will be thought of as “copies.” Mind uploads will be much more sophisticated than the digitally immortal avatars that will come into existence in the 2030s.
  • Different types of AGIs with fundamentally different mental architectures will exist. For example, some AGIs will be computer simulations of real human brains, while others will have totally alien inner workings. Just as a jetpack and a helicopter enable flight through totally different approaches, so will different types of AGIs be capable of intelligent thought. 
  • Gold, silver, and many other “precious metals” will be worth far less than today, adjusting for inflation, because better ways of extracting (including from seawater) them will have been developed. Space mining might also massively boost supplies of the metals, depressing prices. Diamonds will be nearly worthless thanks to better techniques for making them artificially. 
  • The first non-token quantities of minerals derived from asteroid mining will be delivered to the Earth’s surface. (Finding an asteroid that contains valuable minerals, altering its orbit to bring it closer to Earth, and then waiting for it to get here will take decades. No one will become a trillionaire from asteroid mining until well into the 22nd century.)
  • Synthetic life forms will colonize parts of the world uninhabitable to humans, like mountaintops, oceans (both on the surface and under it), and maybe even underground regions. Intelligent and semi-intelligent machines will be common sights, even in remote areas.
  • Intelligent life from Earth will colonize the entire Solar System, all dangerous space objects in our System will be found, the means to deflect or destroy them will be created, and intelligent machines will redesign themselves to be immune to the effects of radiation, solar flares, gamma rays, and EMP. As such, natural phenomena (including global warming) will no longer threaten the existence of civilization.  Intelligent beings will find it terrifying and tragic to contemplate what it was like for humans in the past, who were confined to Earth and at the mercy of planet-killing disasters. 
  • “End of the World” prophecies will become far less relevant since civilization will have spread beyond Earth and could be indefinitely self-sustaining even if Earth were destroyed. Some conspiracy theorists and religious people would deal with this by moving on to belief in “End of the Solar System” prophecies, but these will be based on extremely tenuous reasoning. 
  • The locus of civilization and power in our Solar System will shift away from Earth. The vast majority of intelligent life forms outside of Earth will be nonhuman. [Upon further reflection, I think it will take longer for this milestone to pass. For one thing, even as the off-world population intelligent machines and their infrastructure quickly grows, so will the same things keep growing on Earth.]
  • A self-sustaining, off-world industrial base will be created.
  • It will be possible to safely smoke cigarettes in more advanced types of space ships. 
  • Spy satellites with lenses big enough to read license plates and discern facial features will be in Earth orbit. 
  • Space probes made in our Solar System and traveling at sub-light speeds will reach nearby stars.
  • All of the useful knowledge and great works of art that our civilization has produced or discovered could fit into an advanced memory storage device the size of a thumb drive. It will be possible to pair this with something like a self-replicating Von Neumann Probe, creating small, long-lived machines that would know how to rebuild something exactly like our civilization from scratch. Among other data, they would have files on how to build intelligent machines and cloning labs, and files containing the genomes and mind uploads of billions of unique humans and non-human organisms. Copies of existing beings and of long-dead beings could be “manufactured” anywhere, and loaded with the personality traits and memories of their predecessors. Such machines could be distributed throughout our Solar System as an “insurance policy” against our extinction, or sent to other star systems to seed them with life. Some of the probes could also be hidden in remote, protected locations on Earth.
  • We will find out whether alien life exists on Mars and the other celestial bodies in our Solar System. 
  • Intelligent machines will get strong enough to destroy the human race, though it’s impossible to assign odds to whether they’ll choose to do so.
  • If the “Zoo Hypothesis” is right, and if intelligent aliens have decided not to talk to humans until we’ve reached a high level of intellect, ethics, and culture, then the machine-dominated civilization that will exist on Earth this century might be advanced enough to meet their standards. Uncontrollable emotions and impulses, illogical thinking, tribalism, self-destructive behavior, and fear of the unknown will no longer govern individual and group behavior. Aliens could reveal their existence knowing it wouldn’t cause pandemonium. 
  • The government will no longer be synonymous with slowness and incompetence since all bureaucrats will be replaced by machines.
  • Technology will be seamlessly fused with humans, other biological organisms, and the environment itself.  
  • It will be cheaper and more energy-efficient to grow or synthesize almost all types of food in labs or factories than to grow and harvest it in traditional, open-air farms. Shielded from the weather and pests and not dependent on soil quality, the amounts and prices of foods will be highly consistent over time, and worries about farmland muscling out or polluting natural ecosystems will vanish. Animals will no longer be raised for food. Not only will this benefit animals, but it will benefit humans since it will eliminate a a major source of communicable disease (e.g. – new influenza strains originate in farm animals and, thanks to close contact with human farmers, evolve to infect people thanks to a process called “zoonosis”).
  • Additionally, the means will exist to cheaply and artificially produce non-edible organic products, like wool and wood, in industrial quantities. This means anyone will be able to buy animal products that are very expensive today, like snakeskin boots or bear rugs. Unlimited quantities of perfectly simulated animal products that have useful properties, like pillow feathers (softness) or high-grade wool (heat insulation), will be available, and no animals will need to be harmed to make them. This will greatly help endangered species that are poached for their parts, like elephants killed for their ivory tusks. Lab-synthesized wood that is superior to “old-growth” timber will also exist.
  • The ability to cheaply make large quantities of organic products will lead to the creation of bizarre objects that no one conceived of before, like vehicle frames made of single pieces of bone.
  • A global network of sensors and drones will identify and track every non-microscopic species on the planet. Cryptids like “bigfoot” and the “Loch Ness Monster” will be definitively proven to not exist. The monitoring network will also make it possible to get highly accurate, real-time counts of entire species populations. Mass gathering of DNA samples–either taken directly from organisms or from biological residue they leave behind–will also allow the full genetic diversity of all non-microscopic species to be known. 
  • That same network of sensors and machines will let us monitor the health of all the planet’s ecosystems and to intervene to protect any species. Interventions could include mass, painless sterilizations of species that are throwing the local ecology out of balance, mass vaccinations of species suffering through disease epidemics, reintroductions of extinct species, or widescale genetic engineering of a species. 
  • The technology and means to implement David Pearce’s global “benign stewardship” of nonhuman organic life will become available.  (https://youtu.be/KDZ3MtC5Et8) After millennia of inflicting damage and pain to the environment and other species, humanity will have a chance to inaugurate an era free of suffering.
  • The mass surveillance network will also look skyward and see all anomalous atmospheric phenomena and UFOs.
  • Robots will clean up all of the garbage created in human history. 
  • Every significant archaeological site will be excavated and every shipwreck found. There will be no work left for people in the antiquities. 
  • Dynamic traffic lane reversal will become the default for all major roadways, sharply increasing road capacity without compromising safety. Autonomous cars that can instantly adapt to changes in traffic direction and that can easily avoid hitting each other even at high speeds will enable the transformation.
  • The Imperial system of weights and measures will fall out of use worldwide. Intelligent machines and posthumans will be able to switch to Metric without a problem. The same nimbleness of mind might also let them break from the ingrained traditions created by past humans and adopt other new standards, like new alphabets, numerals, and languages. 

Interesting articles, December 2022

A gem from a “CIA spy” this August: “In my assessment, Vladimir Putin is winning. Russia is winning. They’re winning in Ukraine but they’re also winning the battle of influence with the West. They’re winning in the face of economic sanctions. They’re winning…[Russia will take over all of southern Ukraine, including Mariupol, the Kherson region and Odessa] and into Moldova. I believe all of that will happen before the fall…Fall of this year.”
https://youtu.be/T3FC7qIAGZk?t=756

Henry Kissinger talks about the Ukraine War, and also the threat of AI:

“Ukraine has become a major state in Central Europe for the first time in modern history. Aided by its allies and inspired by its President, Volodymyr Zelensky, Ukraine has stymied the Russian conventional forces which have been overhanging Europe since the second world war. And the international system – including China – is opposing Russia’s threat or use of its nuclear weapons.

This process has mooted the original issues regarding Ukraine’s membership in Nato. Ukraine has acquired one of the largest and most effective land armies in Europe, equipped by America and its allies. A peace process should link Ukraine to Nato, however expressed. The alternative of neutrality is no longer meaningful, especially after Finland and Sweden joined Nato. This is why, last May, I recommended establishing a ceasefire line along the borders existing where the war started on 24 February. Russia would disgorge its conquests thence, but not the territory it occupied nearly a decade ago, including Crimea. That territory could be the subject of a negotiation after a ceasefire.”
https://www.spectator.co.uk/article/the-push-for-peace/

The reality of war: Drone footage of a Russian soldier religiously crossing himself during an enemy artillery barrage.
https://youtu.be/XjWFryBJMvs

These calculations show how a small nuclear weapon detonated a few hundred feet above the ground would produce almost no radioactive fallout–no significant amounts of radioactive dust would drift far from the site. If Putin became desperate, such a nuclear strike against a cluster of Ukrainian military units could make sense to carry out.
https://www.thedrive.com/the-war-zone/just-how-radioactive-are-low-yield-nuclear-weapons

Ukraine is struggling to maintain its huge force of foreign-made weapons (including Russian captures and donations from numerous Western countries) due to non-interchangeable spare parts, lack of familiarity with maintenance procedures, and other human factors. A military AI like Skynet wouldn’t have these problems, it would know how to maintain, fix and use every kind of weapon, or could figure it out quickly and never forget. It would also keep an up-to-date inventory of all weapons, equipment and parts it had. Logistics that human armies find impossible or too costly to support would become possible. Future machine armies might be LESS standardized than human armies.
https://www.thedrive.com/the-war-zone/ukraine-situation-report-kyiv-struggling-to-keep-captured-weapons-in-the-fight

I roll my eyes at people who claim old weapons aren’t obsolete so long as you only use them in roles that respect their limitations. This has come up a lot during the Ukraine War, with some troops getting WWI bolt action rifles and 60 year old tanks. An important criterion for being obsolete is whether your weapon has gotten so old that its value on the antique market is higher than what it would cost to buy a newer, better weapon intended for the same role. For example, a WWII T-34 tank that Ukraine has laying around could be sold to an international collector for $230,000, which is more than enough to buy a T-72. The same is true for the WWI bolt action rifles. Selling one would bring in enough money to buy a full auto AK-47.
https://www.rbth.com/defence/2017/04/26/how-to-buy-an-old-soviet-tank-for-the-price-of-a-fancy-car_750701

The suicide drones that Azerbaijan used against Armenia two years ago were cruder than I thought. They were obsolete biplanes, fixed up just enough to do a final flight, and packed with explosives. Human pilots flew them into the air, lined them up with their targets in Armenia, and then jumped out and parachuted to the ground. Russia is planning to copy this idea, but they actually have the money and technology to fit the biplanes with computer autopilots.
https://youtu.be/z7I3Illsuqg

The A-10 is badass, but also obsolescent: It is too vulnerable to newer air-to-ground missiles, and its mighty 30mm gun isn’t strong enough to punch through the advanced armor of modern tanks. The new idea is to use it for attacking ships, which it could do, albeit inefficiently. The recent moves by Azerbaijan and Russia to convert obsolete biplanes into expendable drones makes me suspect the same will be done to planes like the A-10 once the technology is better and cheaper. Sending old A-10s and 1960s tanks into battle against poor odds might make military sense if the vehicles are piloted by machines whose lives mean nothing.
https://www.businessinsider.com/a10-warthog-trying-a-new-role-decoying-enemy-air-defense-2022-12

The sad saga of Russia’s sole aircraft carrier continues: it caught on fire while in port.
https://www.thedailybeast.com/russias-only-aircraft-carrier-admiral-kuznetsov-catches-fireagain

The last Boeing 747 rolled off the production line, ending an era in passenger plane flight.
https://www.thedrive.com/the-war-zone/the-last-747-ever-built-has-rolled-off-boeings-production

After discovering large reserves of natural gas under the North Sea, Britain’s government instituted a national program to upgrade all appliances to use the fuel. Most of them had been designed to run off of “town gas,” which is made from coal. Over just eight years, 40 million appliances belonging to 14 million customers were modified. Once the global worker robot population gets into the tens of millions, major changes to infrastructure like this will become financially possible, such as changing national railroad gauges and electrical outlets. The path dependencies humans emplaced won’t last forever.
https://www.resilience.org/stories/2020-03-10/share-the-great-switch-lessons-from-when-14-million-homes-and-businesses-changed-fuel-in-less-than-a-decade/

Facebook has invented an audio compression algorithm that is 10x better than MP3. It allows high quality audio to be transmitted on low bandwidth channels.
https://ai.facebook.com/blog/ai-powered-audio-compression-technique/

‘[Researchers] from MIT’s Computer Science and Artificial Intelligence Laboratory (CSAIL), Autodesk Research, and Texas A&M University came up with a method to automatically assemble products that’s accurate, efficient, and generalizable to a wide range of complex real-world assemblies. Their algorithm efficiently determines the order for multipart assembly, and then searches for a physically realistic motion path for each step.’
https://youtu.be/2Xw01yyg5So

A group of AI researchers found a way to beat a superhuman computer Go program, “KataGo,” by using an unusual gameplay strategy.
https://arstechnica.com/information-technology/2022/11/new-go-playing-trick-defeats-world-class-go-ai-but-loses-to-human-amateurs/

A shockingly advanced chatbot, “ChatGPT”, has been unveiled. It can quickly make short-essay-length responses to complex human questions. At this rate of advancement, the Turing Test will be passed this decade.
https://www.theguardian.com/technology/2022/dec/04/ai-bot-chatgpt-stuns-academics-with-essay-writing-skills-and-usability

DeepMind unveiled a new algorithm, called “AlphaCode,” which can write computer code as well as a novice human programmer.
https://www.science.org/content/article/ai-learns-write-computer-code-stunning-advance

An essay on how language models could lead to the creation of superintelligent AI. I like this passage: ‘The totality of humanity’s recorded knowledge about the world — our shared world model — is a lower bound on what language models can learn in the limit[3]. We would expect that sufficiently powerful language models would be able to synthesise said shared world model and make important novel inferences about our world that is implicit in humanity’s recorded knowledge, but which have not yet been explicitly synthesised by anyone[4].’
https://www.lesswrong.com/posts/MmmPyJicaaJRk4Eg2/simulators-thesis

This guy’s predictions about the next ~30 years of AI development are worth reading. I don’t agree with all of it, but it’s interesting and plausible.
https://www.lesswrong.com/posts/qRtD4WqKRYEtT5pi3/the-next-decades-might-be-wild

The U.S. government announced a “breakthrough” in fusion power technology–the achievement of “fusion ignition.”
https://www.energy.gov/articles/doe-national-laboratory-makes-history-achieving-fusion-ignition

Analysts say that, while the development was significant, its importance was exaggerated. Commercial fusion power plants are still decades away, and in fact may never be built.
https://news.yahoo.com/controlled-fusion-power-little-nearer-165242667.html

The technical impediments to making commercially viable fusion reactors are formidable. It’s not the miracle power source people assume it is.
https://thebulletin.org/2017/04/fusion-reactors-not-what-theyre-cracked-up-to-be/

A group of scientists developed a plan to slowly convert an asteroid into a hollow, cylindrical habitat with spin-based gravity.
https://newatlas.com/space/space-habitat-ring-plan/

For most of the 20th century, a sizeable minority of geophysicists believed that the Earth’s diameter had grown over billions of years. Among them, the most plausible explanation involved slow changes to the gravitational constant: If gravity gets weaker, then all the tiny rock particles that make up the Earth are not attracted to each other as much, so they spread out more, causing the whole planet to get wider.
https://www.chemeurope.com/en/encyclopedia/Expanding_earth_theory.html

Did the 1995 movie Species steal the plot of a 1961 British TV series A For Andromeda?
https://en.wikipedia.org/wiki/A_for_Andromeda
https://en.wikipedia.org/wiki/Species_(film)

Authoritarians on the left and right wings have essentially the same mindsets: Intolerance for people different from themselves, a lust for power, an instinct for what people on their side are thinking and which people in the group are powerful or weak, and an abnormal willingness to engage in political violence.

“It’s a mistake to think of authoritarianism as a right-wing concept, as some researchers have in the past,” he says. “We found that ideology becomes secondary. Psychologically speaking, you’re an authoritarian first, and an ideologue only as it serves the power structure that you support.”
https://phys.org/news/2021-09-left-wing-authoritarians-key-psychological-traits.html

There are “impossible colors.”
https://en.wikipedia.org/wiki/Impossible_color

When a male [Anglerfish] finds a female, he bites into her skin, and releases an enzyme that digests the skin of his mouth and her body, fusing the pair down to the blood-vessel level.[26] The male becomes dependent on the female host for survival by receiving nutrients via their shared circulatory system, and provides sperm to the female in return. After fusing, males increase in volume and become much larger relative to free-living males of the species. They live and remain reproductively functional as long as the female lives, and can take part in multiple spawnings.[4] This extreme sexual dimorphism ensures that when the female is ready to spawn, she has a mate immediately available.[27] Multiple males can be incorporated into a single individual female with up to eight males in some species, though some taxa appear to have a “one male per female” rule.[4]
https://en.m.wikipedia.org/wiki/Anglerfish

Britain’s NHS will start offering free genetic sequencing for outwardly healthy newborns, to screen for 200 genetic disorders. It’s a step in the right direction, but the tests should really be done before the babies are born, so the parents can know about any disorders beforehand and abort pregnancies the realize they can’t handle.
https://www.bbc.com/news/health-63906892

Jonas and Wyatt Maines are identical twin brothers. However, Wyatt gender-identifies as female, and used hormone therapy during their teens to help transition into a transwoman. Wyatt now goes by the first name “Nicole.” Their example shows that gender identity is at least partly rooted in brain development, and not exclusively in genetics, and their differences in appearance make for an interesting study of sexual dimorphism.
https://time.com/4074959/see-how-twin-boys-became-brother-and-sister/

Ear shapes are unique to people, and a new algorithm can identify people by their ears with 97.25% accuracy.
https://news.uga.edu/new-facial-recognition-technology-scans-your-ear/

Different races of people tend to have different brain shapes. There’s even shape variation within races, allowing a person’s ancestral region of origin to be determined with fair accuracy.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4786069/

Pharmacists are still making remarkably poor use of automation. There’s no reason why highly-paid humans should still be spending their time counting pills instead of leaving the task to machines.
https://www.wsj.com/articles/cvs-tries-out-remote-system-to-help-fill-prescriptions-11670108339

The causal link between saturated fat consumption and cardiovascular diseases has always been based on shaky science.
https://journals.lww.com/co-endocrinology/Fulltext/2023/02000/A_short_history_of_saturated_fat__the_making_and.10.aspx

This Bill Gates COVID-19 prediction from August 2021 would have been right had it not been for China’s bungling: “You have to admit there’s been trillions of dollars of economic damage done and a lot of debts, but the innovation pipeline on scaling up diagnostics, on new therapeutics, on vaccines is actually quite impressive. And that makes me feel like, for the rich world, we should largely be able to end this thing by the end of 2021, and for the world at large by the end of 2022. That is only because of the scale of the innovation that’s taking place.”
https://www.wired.com/story/bill-gates-on-covid-most-us-tests-are-completely-garbage/

Interesting articles, November 2022

Ukraine scored another major victory this month when it retook the southern city of Kherson from Russian forces. It was the biggest city captured by Russia since the start of the war, and the last Russian toehold north and west of the Dnieper River.
https://www.nbcnews.com/news/world/russia-kherson-retreat-complete-ukrainian-forces-advance-rcna56717

Russia is so low on artillery shells that it is illegally buying them from North Korea.
https://www.politico.com/news/2022/11/02/north-korea-is-secretly-supplying-russia-with-ammunition-kirby-says-00064611

North Korea’s boast about being able to use artillery to turn Seoul into a “sea of fire” is an exaggeration thanks to dud shells, misses, guns breaking down, and rapid South Korean counterfire.
https://keia.org/the-peninsula/north-koreas-conventional-weapons-threat/

The U.S. has again successfully tested its “Rapid Dragon” cruise missile system. Basically, the crewmen onboard a cargo plane open its back door during flight, shove a missile out, and its rocket engine turns on and it flies to its target.
https://www.thedrive.com/the-war-zone/special-ops-c-130-tests-pallet-dropped-cruise-missiles-in-the-arctic

The AR-15 has proven itself to be the most versatile assault rifle in the world time and again. Now, Pakistan has designed a variant of the weapon that marries it with the “delayed blowback” operating system of the famous German G3 rifles and MP5 submachine guns.
https://www.thefirearmblog.com/blog/2022/11/22/ideas-2022-cw56-roller-delayed-blowback-rifle-pakistan-ordnance-factories/

This is the future: a quadcopter drone that is only 12 inches in diameter and 6 inches high that can fly into tight spaces, zip at you at up to 40 mph, and detonate itself with the force of a small grenade once it gets right up to your face.
https://www.thedrive.com/the-war-zone/these-israeli-urban-battlefield-assassin-drones-are-nightmare-fuel

On the rise of “Reform AI Alignment” in opposition to “Orthodox AI Alignment.”
https://scottaaronson.blog/?p=6821

Amazon’s Alexa voice assistant may be a marvel of technology, but it is also a massive money-loser for the company.
https://arstechnica.com/gadgets/2022/11/amazon-alexa-is-a-colossal-failure-on-pace-to-lose-10-billion-this-year/

On the heels of my thought experiment last month about machines being better at choosing careers for people than we are, here’s a finding that college students commonly choose majors based on unrealistic expectations about what careers they will lead to.
https://marginalrevolution.com/marginalrevolution/2022/10/do-students-choose-majors-rationally.html

Cladding old buildings in new exteriors could be the most eco-friendly way to improve the energy efficiency of the housing stock.
https://www.cnn.com/2022/11/29/business/ecoworks-germany-cladding-climate-spc-intl/index.html

After years of delays, NASA launched its first SLS rocket into space, propelling an unmanned Orion capsule to the Moon. This could be the first step to a human Moon landing this decade.
https://www.cnn.com/2022/11/24/world/nasa-orion-capsule-selfie-moon-scn/index.html

“The fatigue limit or endurance limit is the stress level below which an infinite number of loading cycles can be applied to a material without causing fatigue failure. Some metals such as ferrous alloys and titanium alloys have a distinct limit, whereas others such as aluminum and copper do not and will eventually fail even from small stress amplitudes.”
In theory, a wrench made of steel could last forever if you never applied enough force to it to exceed its fatigue limit.
https://en.m.wikipedia.org/wiki/Fatigue_limit

Has theoretical particle physics gotten too theoretical?
https://www.theguardian.com/commentisfree/2022/sep/26/physics-particles-physicists

The FDA has authorized the first lab grown chicken meat to be sold in the U.S.
https://www.bbc.com/news/technology-63660488

The FDA has also approved a new drug that delays the onset of Type 1 diabetes in children by around two years.
https://www.bbc.com/news/health-63663338

Lamps that generate “far UV” light have been shown to kill airborne pathogens, but without harming the skin and eyes of humans, as regular UV lamps do.
https://www.nature.com/articles/s41598-022-08462-z

“Superagers” are people over 80 whose memories are as good as people 20 years younger. Studies show that their brain anatomy is slightly different, probably accounting for their superior traits. Imagine if genetic engineering turned all humans into superagers.
https://www.cnn.com/2022/11/26/health/superager-secrets-good-memory-wellness/index.html

The Bank of America prediction from April 2022 was right. At the time it was released, the S&P 500 was 4,488. The analysis said the index would drop by 11% before the end of the year, which equates to a value of 3,990. It reached an actual low of 3,491 in October, and remains below 4,000 today.
https://markets.businessinsider.com/news/stocks/stock-market-outlook-recession-inflation-sp500-federal-reserve-interest-rates-2022-4

Review: “Dark Side of the Moon”

Plot:

In the year 2022, Earth is encircled by satellites armed with nuclear missiles. Manned, private spaceships rendezvous with them for regular maintenance and repair. The film centers around one such ship, named Spacecore 1, as its mission takes it around the dark side of the Moon. 

A mysterious malfunction cripples Spacecore 1’s systems, leaving it adrift and with only enough oxygen for 24 hours. Unable to summon help with distress calls, the crew faces certain death. Luckily, the vintage Space Shuttle Endeavor appears from nowhere and docks itself with Spacecore 1, sharing its power and oxygen. Though the Shuttle’s behavior shows it is under intelligent control, it is strangely uncommunicative. 

Exploring the Shuttle

After docking, two of Spacecore 1′s crewmen enter Endeavor to find out who is piloting it. The craft is disheveled and is carrying rock samples mined from the dark side of the Moon. Chillingly, they discover the mutilated corpse of an astronaut, which they bring back to Spacecore 1’s infirmary for examination. This proves to be a terrible mistake, as it turns out the dead astronaut’s body hosts an evil force that can attack other people and transfer its essence to them. One by one, the crew are corrupted and killed. 

An astronaut infested with the evil force

Dark Side of the Moon was a bad, low-budget movie that clearly tried to copy better sci-fi films that came in the decade before it (Alien and The Thing). The acting and dialog were wooden, and the second half of the film went in circles as members of the crew were infested with the evil spirit, died, and became paranoid of each other, repeat, repeat. The special effects and set design were unimpressive, and many scenes were so dimly lit that it was hard to tell what was going on. 

This cross-sectional drawing shows the Shuttle’s scale. Its interior wouldn’t take long to search, and it lacks room for hiding places.

The movie also had some ridiculous elements, like people smoking cigarettes inside spaceships, the crew having several assault rifles even though their mission only involved fixing unmanned satellites, egregious sexual harassment, and the interior of the Endeavor being several times larger than it is in real life (secret rooms, very high ceiling, takes a long time to search). 

The film’s premise, that a mysterious evil force is stalking the crew of a stranded spaceship and making them paranoid, was interesting and thus its only bright spot. It was executed vastly better seven years later in the movie Event Horizon

If you value your scarce time on Earth even a little bit, then reading this review should be the closest you ever get to watching Dark Side of the Moon

Analysis:

There are large, manned spaceships. Spacecore 1 is, by our standards, an enormous spaceship. None of the characters ever mention its dimensions, but in special effects shots where it is docked with the Shuttle Discovery, it looks roughly ten times bigger than the latter. That would make Spacecore 1 significantly larger than even the International Space Station, which is the largest object humans have so far put into space. 

This illustration shows how big a space shuttle is compared to the ISS and past space stations.

Spacecore 1‘s exterior is also not streamlined, suggesting it is not designed to land on Earth or any other planet with an atmosphere. It was assembled in space and is meant to stay there. Again, the ISS and the Chinese space station are the only two craft in existence that meet those criteria. However, because they can’t leave Earth’s low orbit, they don’t qualify as “spaceships.”

Spaceships like Spacecore 1 haven’t been built yet, though our failure to do so owes to a lack of political will rather than technology falling short. If the U.S. or a group of advanced countries had dedicated itself towards building something like Spacecore 1 starting in the 1990s, it could be flying out to lunar orbit by now. 

I predict the first relatively large, manned spaceship that is designed to stay in space could exist as early as the 2030s, in the form of a reusable ferry that moves people between Earth and Mars. At both ends of its repeating journey, smaller craft designed to transfer passengers and cargo from orbit to the surface and vice versa would dock with the spaceship. 

The Hubble Space Telescope is, aside from the two manned space stations, the largest manmade object orbiting Earth. It is as big as a bus. Coincidentally, the shuttle Discovery ferried the Telescope into orbit.

Also, if we ever built a spaceship meant to repair and refuel satellites, it wouldn’t need to be nearly as big as Spacecore 1, and probably wouldn’t need a human crew. Our largest unmanned satellites orbiting Earth are about as big as buses, so a craft designed to refuel one of them and even replace several of its components would need even less interior space of its own to store the necessary cargo. There’s no reason a repair ship needs to be bigger than the thing it is meant to repair.

The people and pickup trucks in this photo give a sense of the X-37’s size.

The new X-37 space plane is said to be able to service satellites in orbit. It is much smaller than even the Space Shuttles, is unmanned and remotely controlled from Earth. 

There are satellites that launch nuclear missiles. Spacecore 1′s mission is to fix and maintain military satellites that are armed with nuclear missiles. The Outer Space Treaty of 1967 banned all countries from putting nuclear weapons in space, and to the best of our knowledge, no one has ever violated it. This largely owes to the fact that, in spite of how menacing the idea of a nuclear missile in space is, it’s impractical and brings little military benefit. Missiles stationed on the Earth’s surface are much cheaper, can hit any target on the planet, and can be hidden from enemies.

Space-based nuclear missiles would cost a fortune to put into orbit, would not be able to strike targets that ground-based missiles couldn’t, and would be impossible to hide from any enemy nation that had telescopes. Expensive nuclear weapon satellites could be destroyed by much cheaper space rockets designed to enter their well-known orbital paths and collide with them.

Manned spaceships travel beyond the orbit of the Moon. As the film’s title implies, it is set on the dark side of the Moon, or more precisely, on two spaceships that are several hundred or thousand miles above the dark side of the Moon. The last time humans ever went that far into space was 50 years ago when the astronauts of Apollo 17 orbited the Moon. At that moment, they were about 200,000 miles from Earth. Since the end of the Apollo Program, no human has ventured more than a few hundred miles into space. 

NASA just released this “selfie” of an unmanned Orion space capsule as it was above the dark side of the Moon

Humans will probably match our old distance record this decade when astronauts return to the Moon. Fittingly, at this moment, NASA’s first “Orion” space capsule is orbiting the Moon as the first step in a multi-year plan to send humans back in one of the capsules. NASA’s program for accomplishing this has suffered years of delays, and in an alternate universe where the agency worked more efficiently, got more money, or somehow got a little lucky, the program’s timetable could be more advanced, and in 2022, an Orion capsule carrying the first humans would be going around the dark side of the Moon now (right now, the target date for that is in 2024).

Moreover, as early as the 2030s, we could shatter our space distance record by sending people to Mars. Depending on where the two planets are in their orbital cycles, the distance between them varies from 33.9 million to 249 million miles. 

That said, I don’t think manned space ships will ever be needed to fix and maintain nuclear-armed satellites or ANY kind of satellites that are as far from the Earth as the Moon. This is because nearly all satellites are within 36,000 miles of Earth, while the Moon is 200,000 miles away. Satellites intended to fire nuclear missiles at Earth would also need to be close to strike targets in a timely fashion–if a satellite at Moon’s distance fired a nuclear missile at Earth, it might take days to reach its target (the Apollo spacecraft took three days), giving the enemy time to see the launch, determine its trajectory, and send its own intercept rockets into space. 

There are androids that can carry on conversations. Spacecore 1’s main computer is embodied by a female android called “Lesli.” She is always seated in a chair in a special room, and she can answer questions about the ship’s systems and many other subjects. As is typical of sci fi films, she speaks in an emotionless voice. This level of AI technology exists: chatbots using GPT-3 technology can converse almost as intelligently and as fluidly with people as Lesli, and speech synthesizer technology exemplified by Amazon Alexa sounds as realistic as Lesli’s voice. 

Lesli the android

Moreover, we can build androids that are almost as lifelike as Lesli. “Ameca” is a crude android with “Smooth, lifelike motion and advanced facial expression capabilities” as well as the ability to move its arms to make human-like gestures. In this demonstration video, Ameca is paired with GPT-3 and a high-quality speech synthesizer to carry on conversations with humans surprisingly well:

“Sophia” is another android, but with artificial skin and colored eyes to make it look more lifelike than Ameca:

Combining Ameca’s superior range of physical movement and facial expression with Sophia’s human-like skin and eyes would result in an android that approximated a human’s appearance reasonably well. It wouldn’t look as real as Lesli from the film, but that’s an unfair comparison since the android was played by a real human actress, and either due to the filmmakers lacking imagination or lacking money, they didn’t give her any makeup or costuming to make her look more robotic. 

Our androids also match Lesli’s level of mobility, which is to say they have none. Lesli has legs, but as stated, she never gets up from her chair, even during a film scene where the evil being attacks and presumably kills her. This indicates that Lesli’s legs are non-functional and are probably just there for show. Ameca also has non-working legs, and Sophia has nothing. 

Though the movie’s depiction of the state of android technology is 2022 is accurate, there are no androids inside any of our spacecraft. This is because space mission budgets don’t allow for wasting money on several hundred pounds of dead weight in the form of a human-sized robot that stays fixed to a chair. Whenever astronauts need to talk to their craft’s central computer, they do so through keyboards and screen displays. All the same intelligence is still embodied in the ship, but without need to a bulky physical manifestation of itself.

There will be artificial gravity. There’s no scene in the film where anyone is weightless (again, this is surely due to a lack of money during production), and Spacecore 1 and Discovery have gravity. In special effects shots of the ships, we never see them rotating, so they weren’t using centrifugal force to create gravity, meaning it was being “generated” from some device in the floor. As I’ve said in previous reviews, this technology is impossible since the laws of physics don’t allow for the creation of gravity this way.  

Astronauts smoke cigarettes inside spaceships. In several scenes, crewmen smoke cigarettes inside Spacecore 1. In reality, this has always been forbidden due to safety concerns (for one, spacecraft have more oxygen-rich atmosphere mixtures than Earth’s, so a lit cigarette is a much worse fire hazard), and there is no record of any person smoking inside any spaceship or space station. Even the Soviets, who were known to be more risk-taking than anyone else, never smoked in space. 

However, in the far future, there will be spaceships that are larger, more advanced, and more luxurious than even Spacecore 1, and they could have small “smoking lounges” that would be sealed off from the rest of the vessel and have design features to filter the smoke from the air and prevent lit cigarettes from sparking fires. At some point in the future, people will smoke cigarettes in space.  

There are guns in space ships for astronauts to use. In the film, there’s a gun rack on Spacecore 1 full of five or six assault rifles. Once things take a turn for the worse, the weapons are distributed and the crewmen start spraying bullets at each other. Ridiculously, the ship’s hull is never punctured. 

There actually have long been guns in space. Soviet/Russian Soyuz space capsules have emergency kits for the cosmonauts to use if they accidentally land in remote parts of Earth and have to wait for rescue. The kits contain semi-auto pistols for defense against wild animals. A Soyuz is permanently docked at the ISS, so there is a gun in space right now that any crewman could grab and use against the others. 

Part of the reason why there has never been a shooting incident in space is that it might be suicidal for the attacker since the bullet could put a hole in the hull, causing the oxygen to leak out, or it could destroy an important system like a pressurized fuel tank or central computer. The more powerful the gun, the higher the risk of such a disaster gets, making an assault rifle a particularly bad choice to put in a spaceship. Even if the shooter hits his human target, a rifle bullet could pass through them and drill through whatever is behind them. 

A small pistol is actually the best choice for any conceivable type of space combat. Its small size makes it ideal for the tight confines of a spaceship or space station, and its weaker bullets 1) minimize recoil forces on the shooter, which is important in the weightlessness of space, 2) are well-suited against people since no one has body armor, and 3) carry less risk of causing collateral damage like hull punctures.  

The Space Shuttles are retired. In the film, it is said that the Space Shuttles were retired in 1992 after the Endeavor’s disappearance. They were actually retired in 2011, due to high operating costs and safety problems. 

In conclusion, as bad as Dark Side of the Moon was, it depicted several aspects of 2022 technology accurately. And where reality did fall short of the filmmakers’ expectations, it was mostly due to us choosing to allocate our money in more sensible directions, and not due to the technology staying fundamentally out of reach for us. We COULD HAVE put nuclear-armed satellites in orbit. We COULD HAVE built a large, manned spaceship to service those satellites. We COULD HAVE put an immobile android in the spaceship to interact with the astronauts. We COULD HAVE also put assault rifles in the ship. 

Thank God we didn’t.

Interesting articles, October 2022

Ukraine scored another major victory by nearly destroying the Kerch Bridge with a truck bomb. The Bridge links Crimea with the Russian mainland, and was built soon after Russia annexed Crimea in 2014.
https://www.youtube.com/watch?v=KdAdwahF1Fk
https://www.bbc.com/news/world-europe-63255611

Putin retaliated for the bridge attack by firing dozens of cruise missiles against infrastructure targets across Ukraine.
https://www.msn.com/en-us/news/world/russias-airstrikes-intended-to-show-force-reveal-another-weakness/ar-AA12WCXa

Russia is using cheap, Iranian-made drones to conduct mass kamikaze attacks against Ukraine.
https://www.forbes.com/sites/davidhambling/2022/09/28/how-can-ukraine-counter-russias-swarm-drone-offensive/
https://www.youtube.com/watch?v=ZLVK-QqEguw

“The primary reason for taking Crimea may have been ensuring access to the ocean,” Schue said, “but it also allowed them to regain control of the Loran transmission site there. This has assured them sovereign terrestrial PNT [positioning, navigation and timing] for the entire region, including the Black Sea.”
https://www.gpsworld.com/russia-expected-to-ditch-glonass-for-loran-in-ukraine-invasion/

The U.N. voted overwhelmingly to reject Russia’s recent annexations of parts of eastern Ukraine its military has occupied. North Korea, Belarus, Syria, and Nicaragua were the only countries that stood by Russia on the issue.
https://apnews.com/article/russia-ukraine-middle-east-syria-united-nations-fd7ede16dec560ebb49f9465644de1b1

Russian tank losses are so high that they’ve been forced to send obsolete T-62 tanks to the front lines.
https://www.thedrive.com/the-war-zone/russia-to-modernize-800-vintage-t-62-tanks-due-to-ukraine-losses-report

Slovenia is giving Ukraine most of its M-55S tanks, which are upgraded Soviet T-55 tanks. They are probably equivalent to the T-62 tanks Russia is refurbishing and also sending to fight in Ukraine.
https://militaryleak.com/2022/09/21/slovenia-to-supply-28-m-55s-main-battle-tanks-to-ukraine/

The U.S. has lifted its longstanding weapons embargo on Cyprus. This could lead to Cyprus exporting some of its Soviet-made tanks and weapons to Ukraine, which is familiar with them.
https://breakingdefense.sites.breakingmedia.com/2022/09/lifting-the-arms-embargo-on-cyprus-is-a-major-opportunity-to-aid-ukraine/

The U.S. has given Ukraine over 1 million artillery shells since the Russian invasion.
https://www.thedrive.com/the-war-zone/ukraine-has-now-received-over-a-million-artillery-rounds-from-the-u-s

This is a good idea. If NATO countries can’t achieve full hardware interoperability yet, then they should trade weapons so that different regions of the alliance are fully interoperable within themselves.
https://www.yahoo.com/news/us-artillery-officials-nudging-european-193949526.html

Azerbaijan seized upon Russia’s distraction with the Ukraine War to again attack Armenia last month. Azerbaijan is stronger and larger than its neighbor, and has more international allies. Armenia’s only useful friend is Russia.
https://youtu.be/7NOMj7n6QAM

It has been exactly 60 years since the Cuban Missile Crisis. Today, the U.S. and Russia are as almost as close to a nuclear exchange as they were then.
https://www.npr.org/2022/10/16/1124680429/cuban-missile-crisis-60th-anniversary

The U.S. military has a large number of old, mothballed cargo and support ships that can be activated on short notice to move troops and supplies anywhere in the world. It is called the “Ready Reserve Force.”
https://en.wikipedia.org/wiki/List_of_Ready_Reserve_Force_ships

The U.S. Secretary of State openly claims that China has accelerated its secret plan to take over Taiwan.
https://www.taiwannews.com.tw/en/news/4689892

Someday we will resurrect dinosaurs in some form, aliens disguised as humans could be among us, and humans might someday exist as brains floating in jars, able to indulge in any fantasy (such as triggering waking dreams).
https://youtu.be/iuYACq8v0GQ

Tesla’s new electric Semi truck will be much cheaper to operate and maintain than its diesel-powered competitors, and will produce much less noise pollution.
https://futuristspeaker.com/future-of-transportation/the-extraordinary-economic-benefits-of-the-tesla-semi/

In the 1960s, GE made a four-legged “Walking Truck” that had legs instead of wheels, for the U.S. military. This video of it clumsily moving around shows why it never made it out of the prototype phase, and why legged vehicles of any type were never successful.
https://www.youtube.com/watch?v=grVxdNW34FQ

A woman who drinks coffee or other caffeinated beverages each day while pregnant might cost her child an inch of height.
https://jamanetwork.com/journals/jamanetworkopen/fullarticle/2797983

A new gene sequencing machine called the “NovaSeq X” can allegedly map a full human genome for only $200.
https://www.wired.com/story/the-era-of-fast-cheap-genome-sequencing-is-here/

This guy can see ultraviolet light, and he created this website to show how the world looks different to him.
https://www.komar.org/faq/colorado-cataract-surgery-crystalens/ultra-violet-color-glow/

Training machines to match human workers with the right knowledge and skill sets to the work tasks they are suited for (as discussed in the article) is a huge step towards automating all jobs. If the paradigm of “hyper-personalized training” and “micro-credentials” for humans arises, it won’t last long.
https://futuristspeaker.com/future-of-education/hyper-individualized-learning-for-a-hyper-individualized-future/

Computers are much better than human experts at matching humans with the right colleges, fields of study, and careers. Imagine this paired with the “hyper-personalized training” and “micro-credentials” paradigm: At age 18, a supercomputer would give you a short list of careers you would be suited for. You pick the one you like best, and go through a stripped-down training regimen that only includes things directly relevant to doing that job. You would enter the workforce much faster and would be more of an asset to the economy. Vastly less time and money would be wasted on useless degrees, dropped majors, and career mistakes.
https://psycnet.apa.org/record/2013-32416-001

“After building on years of work from MILA, DeepMind, ourselves, and others, our AIs are now expert-human-level in no-press Diplomacy and Hanabi! Unlike Go and Dota, Diplomacy/Hanabi involve *cooperation*, which breaks naive RL.”
https://twitter.com/polynoamial/status/1580185706735218689

Computers can now simulate fluids with lifelike accuracy. This video contains amazing examples of such simulations.
https://youtu.be/8NAi30ZBpJU

The famous Arecibo Telescope won’t be rebuilt.
https://www.nature.com/articles/d41586-022-03293-4

The direction of the economy is practically impossible to forecast, except to the grossest degree. On any given day, a well-credentialed person or team of people working for some impressive-sounding institution will publish a serious-looking paper, or give a very serious-sounding TV interview, where they say the economy is about to collapse. Consider this badly wrong example from a year ago:

“However, downward movements in consumer expectations in the last six months suggest the economy in the United States is entering recession now (Autumn 2021) even though employment and wage growth figures suggest otherwise.”
https://cpb-us-e1.wpmucdn.com/sites.dartmouth.edu/dist/5/2216/files/2021/10/us-fear-oct-7-final-nber.pdf

Musings 2

Jupiter could destroy us or protect us. The planet’s atmosphere has a layer that is rich in deuterium, and detonating a nuclear weapon in that layer might be enough to ignite all of it, creating a huge explosion that would destroy the side of Earth (and any other planet) that was facing it at that moment. A country, group, or crazed rich person could, with future technology, hold the rest of the world hostage with the threat of sending a nuclear space missile to blow up Jupiter. Moreover, if there were a future war between humans living on different planets (like Earth and Mars), one side might decide to detonate Jupiter when its own planet was directly shielded from the explosion by the Sun while the enemy planet was exposed.

Aliens could also detonate Jupiter to exterminate humanity from afar. However, humans could also blow up Jupiter as a sort of “dead man’s switch” that was meant to exterminate any alien fleet or civilization that was conquering our Solar System. We would kill ourselves as well, but at least we’d have the satisfaction of taking them with us and leaving nothing of value behind. Our mere threat of doing this might be enough to convince hostile aliens to leave the Solar System.

In the far future, when we start “mining” Jupiter, we’ll probably make it a priority to slowly siphon off the deuterium in its atmosphere, both to prevent this cataclysm and to fuel spacecraft.

One solution to the Fermi Paradox is that aliens keep quiet to avoid making themselves invasion targets for stronger, hostile aliens. This makes sense once you remember that “information is power”: The more information you have about someone else and the less they have about you, the stronger you are relative to them. The same holds true for intelligent species. If one species knows another exists, but not vice versa, then the first can choose when and under what conditions to make contact, or whether to make contact at all. Those are enormous advantages, particularly if the oblivious species has the ability to hurt the other one.

In short, it’s rational for intelligent species to keep as low a profile as possible, but to keep watch for aliens. That means reducing transmissions from their own planets and building telescopes and other sensors to search for aliens or signs of them. Sending cloaked probes to other star systems, containing downgraded technology and taking circuitous routes to mask their point of origin on the intelligent species’ homeworld, would also probably be a good idea. The probes could search other star systems for alien life even more thoroughly, and could build other types of space ships once there that could attack those aliens.

Part of keeping a low profile means not even revealing one’s self to weaker alien species. Even if they are too weak to hurt you directly, they can kill you indirectly by announcing your presence to everyone else. For example, if a flying saucer full of friendly gray aliens landed on the White House lawn tomorrow, it would be the news event of the millennium. All of our TV signals, many of which shoot into the depths of space, would broadcast the event and its aftermath. Any malevolent insect aliens who had kept a low profile on a planet within 100 light years of Earth would not only learn about humanity’s existence, they would also discover the gray aliens. Because they talked to us, the gray aliens might actually trigger a chain of events that led to their own planet being invaded by insect aliens decades later.

Another reason to colonize space is to establish a secure second strike capability. While aliens could secretly build up a space fleet to suddenly take over Earth before we could have a chance to attack their own planet, it would get exponentially harder with each additional planet (Mars, Venus, Jupiter moons) we controlled. since the alien attack would have to destroy them all simultaneously to prevent our retaliation. If human civilization were spread out among several star systems, exterminating us without suffering a severe, if delayed, counterstrike would be impossible.

Again, secret probes could be of use. If we smuggled them into multiple star systems, they could be programmed to retaliate against any aliens that attacked Earth. Once receiving the attack signal, the probes would build combat space ships, space guns with interstellar ranges, or other types of weapons, and then send them to attack the alien homeworld. This could turn into a multi-century “whack-a-mole” game where hidden probes activated at random intervals, in various star systems in our part of the galaxy, built weapons, sent them off to attack the alien homeworld, and then went into hiding again.

Secret space probes could also be used to take over the galaxy. Consider Ray Kurzweil’s hypothesized “two-phased attack” with self-replicating nanomachines:

How long would it take an out-of-control replicating nanobot to destroy the Earth’s biomass? The biomass has on the order of 1045 carbon atoms. A reasonable estimate of the number of carbon atoms in a single replicating nanobot is about 106. (Note that this analysis is not very sensitive to the accuracy of these figures, only to the approximate order of magnitude.) This malevolent nanobot would need to create on the order of 1034 copies of itself to replace the biomass, which could be accomplished with 113 replications (each of which would potentially double the destroyed biomass). Rob Freitas has estimated a minimum replication time of approximately 100 seconds, so 113 replication cycles would require about three hours.2 However, the actual rate of destruction would be slower because biomass is not “efficiently” laid out. The limiting factor would be the actual movement of the front of destruction. Nanobots cannot travel very quickly because of their small size. It’s likely to take weeks for such a destructive process to circle the globe.

Based on this observation we can envision a more insidious possibility. In a two-phased attack, the nanobots take several weeks to spread throughout the biomass but use up an insignificant portion of the carbon atoms, say one out of every thousand trillion (1015). At this extremely low level of concentration, the nanobots would be as stealthy as possible. Then, at an “optimal” point, the second phase would begin with the seed nanobots expanding rapidly in place to destroy the biomass. For each seed nanobot to multiply itself a thousand trillionfold would require only about 50 binary replications, or about 90 minutes. With the nanobots having already spread out in position throughout the biomass, movement of the destructive wave front would no longer be a limiting factor.

The point is that without defenses, the available biomass could be destroyed by gray goo very rapidly. Clearly, we will need a nanotechnology immune system3 in place before these scenarios become a possibility. This immune system would have to be capable of contending not just with obvious destruction but any potentially dangerous (stealthy) replication, even at very low concentration.

The Singularity is Near

An alien species could, over a long time and with great secrecy, seed every solar system in the galaxy with its own Von Neumann probes, which would contain self-replicating macro- and nano-machines. Once every solar system had a probe, the aliens would send out a signal, and all of the probes would start self-replicating. They wouldn’t just make “Gray Goo” copies of themselves–they might make soldiers, weapons, and other advanced technology. Any other aliens would be overwhelmed, or at least forced to reveal themselves to fight back. 

If we could cheaply make antimatter, then we could make “nuclear bullets.” When matter and antimatter touch, they annihilate each other and convert all their mass into pure energy, described by the familiar equation E = MC2. That means just 1 gram of antimatter could create a 43-kiloton explosion, which is twice as powerful as the bigger of the two atom bombs dropped on Japan. The 5.56mm projectile fired from a standard U.S. military rifle weighs 4 grams.

A very powerful adaptation that our posthuman descendants will have is real-time control over their genes and gut bacteria. They’d have computer brain implants and biomechanical implants throughout their bodies. By simply thinking about it, they could tell their brain implants to alter their gene expression–maybe in a specific body part or organ–to do something like produce more of a certain type of chemical.

Interesting articles, September 2022

After more than a month of stalemate, Ukrainian forces launched a highly successful offensive, recapturing a significant amount of territory in the northern part of their country and routing Russian units in the process.
https://www.thedrive.com/the-war-zone/ukraine-situation-report-dozens-of-towns-retaken-from-russians

As part of their counteroffensive, Ukrainian forces surrounded the town of Izyum, trapping hundreds of Russian troops. This video shows a Russian tank speeding out of the encirclement, with several soldiers clinging to its top. A Ukrainian soldier standing by the roadside sprays it with automatic fire, and the men fall off. The tank then turns the corner and slams into a large tree, which collapses on it.
https://www.youtube.com/watch?v=J1Vb7f8lcVc

Ukraine then retook the city.
https://www.thedrive.com/the-war-zone/ukraine-situation-report-russia-loses-another-key-city

Since February, at least 1,500 of Russia’s main battle tanks, and 2,500 of its lighter armored vehicles have been destroyed or captured by Ukrainian forces. Russia famously hordes huge quantities of military equipment in case of WWIII, so it can replace its massive losses in due time.
https://www.oryxspioenkop.com/2022/02/attack-on-europe-documenting-equipment.html

At the current rate it is losing tanks in Ukraine, Russia’s vast reserves of tanks kept in storage will be totally destroyed in less than three years. However, the loss of skilled tank crewmen will practically cripple their tank fleet before that.
https://youtu.be/ZNNoaRp5lz0

Russia has given some of its retired T-62 tanks to pro-Russian rebels in Ukraine. This video analysis makes it clear that the T-62 is inferior to the newer T-72s that regular Russian Army units have, in every key respect (mobility, firepower, armor). That said, the T-62 is still fine if kept behind the front lines and only used to attack lighter enemy vehicles and infantry units.
https://www.youtube.com/watch?v=tcXJNRfVuzk

Due to shortages, Russia has been forced to buy rockets and artillery shells from North Korea. Judging by the state of North Korea’s industry and technology, the Russians should expect lots of duds.
https://www.theguardian.com/world/2022/sep/06/russia-buying-millions-rockets-shells-north-korea-us-intelligence-ukraine

Using Iranian suicide drones, Russian forces made a mass aerial attack against Odessa.
https://www.thedrive.com/the-war-zone/ukraine-situation-report-russias-drone-war-erupts-thanks-to-iran

Ukrainian troops captured a fully functional example of one of Russia’s best tanks, the T-90M.
https://www.thedrive.com/the-war-zone/ukraine-just-captured-russias-most-advanced-operational-tank

Ukraine also captured one of Russia’s best electronic warfare vehicles, the “Taran-M.” It eavesdrops on enemy communications, can geolocate their sources, and can jam them.
https://www.thedrive.com/the-war-zone/ukraine-just-captured-another-rare-russian-electronic-warfare-vehicle

Ukraine also captured one of Russia’s best radar jamming systems, an “RTU 518-PSM,” from the wreck of a crashed Russian jet.
https://www.thedrive.com/the-war-zone/ukraine-just-captured-one-of-russias-most-capable-aerial-electronic-warfare-pods

For the first time, a U.S. Army combat training exercise simulated a mass drone attack against its troops.
https://www.thedrive.com/the-war-zone/swarm-of-40-drones-over-fort-irwin-an-ominous-sign-of-whats-to-come

India commissioned its first domestically designed and manufactured aircraft carrier. The country also has an older, ex-Soviet carrier.
https://www.cnn.com/2022/09/02/asia/india-indigenous-aircraft-carrier-vikrant-commissioned-intl-hnk-ml/index.html

For the fourth time, Joe Biden has publicly said that the U.S. military would defend Taiwan if China invaded it. America’s longstanding “strategic ambiguity” policy on the matter has been abandoned.
https://www.politico.com/news/2022/09/19/biden-leaves-no-doubt-strategic-ambiguity-toward-taiwan-is-dead-00057658

Two months after WWII ended, Hermann Goering gave a fascinating interview to a U.S. Army reporter about the German perspective on the War, on the U.S., and on their own mistakes.
https://www.historynet.com/lost-prison-interview-with-hermann-goring-the-reichsmarschalls-revelations/

This video explains how U.S. Army doctrine shaped the design of the M113 armored personnel carrier, why the vehicle is obsolete (except in a handful of support roles), and why it actually makes sense for America to give them away rather than upgrade them to fix their inherent limitations.
https://youtu.be/cBufXgTnou0

A newer, better image recognition algorithm called “PaLI” has been unveiled.
https://ai.googleblog.com/2022/09/pali-scaling-language-image-learning-in.html

A digital painting created by a computer program called “Midjourney” won first prize in an art contest. Five years ago, this was unthinkable.
https://dnyuz.com/2022/09/02/an-a-i-generated-picture-won-an-art-prize-artists-arent-happy/

Using deepfake technology, a man converted the footage of a black actress in The Little Mermaid movie remake into a white actress. As this technology improves and augmented reality eyewear become common, expect people to use “filters” like this to curate reality to their tastes, however extreme they may be.
https://nypost.com/2022/09/15/racist-ai-scientist-blasted-for-fixing-black-ariel-in-the-little-mermaid/

This weird “Dragon” aerial drone can reconfigure its shape to let it perform different physical functions.
https://spectrum.ieee.org/dragon-robot-flying-manipulator

The extreme possibilities of cell cultured agriculture include growing human flesh for consumption, generating limitless amounts of blood customized to restore the health of old people, and famous people selling rights to their DNA for the manufacture of organic products like purses.
https://futuristspeaker.com/future-of-agriculture/self-cannibalism-and-the-extreme-possibilities-of-cell-cultured-agriculture/

An essay on why tiny, ubiquitous cameras will soon be everywhere, watching us all the time.
https://petewarden.com/2022/06/15/why-cameras-are-soon-going-to-be-everywhere/

In the future, quantum computers will let us simulate new types of materials, with all their chemical and subatomic properties accurately represented. This will lead to major advances in material science and we discover new alloys, batteries, drugs, and other molecules that would otherwise require billions of dollars in trial-and-error lab research to find. More generally speaking, computer simulations will lead to the optimization of all types of manufactured objects. If we ever meet intelligent aliens, their technology will have gone through the same process and should be similar to ours. No one will be using square wheels on their cars instead of round ones.
https://www.discovermagazine.com/technology/how-quantum-simulations-are-set-to-revolutionize-lithium-batteries

“Machine learning can be used to create protein molecules much more accurately and quickly than previously possible. The scientists hope this advance will lead to many new vaccines, treatments, tools for carbon capture, and sustainable biomaterials.”
https://phys.org/news/2022-09-alphafold-ai-excels-proteins.html

Humans didn’t discover how to knit fabrics until 1000 A.D., which is strange since the necessary technologies for it (fabric threads and large needles) were around for thousands of years.
https://eukaryotewritesblog.com/2022/08/04/fiber-arts-mysterious-dodecahedrons-and-waiting-on-eureka/

Does Japanese society show where the West is headed?
https://danfaggella.com/japan/

Some thoughts on humanity’s possible transition to a Matrix-like existence.
https://danfaggella.com/husk/

Venus’ closeness to the Sun doomed its prospects of ever supporting organic life. Since the Sun makes its surface hotter, the planet’s crust can’t break into tectonic plates, which in turn makes it less geologically active, preventing a carbon cycle from coming into existence and leading to the buildup of a thick atmosphere that traps heat. With much better technology, we could start terraforming Venus in the far future, but the process would take thousands of years to complete.
https://youtu.be/aaE-RiFilEc

Here’s a roundup of climate change doomsday predictions, including ones that have failed to come true. Global warming is real, is bad, and is partly caused by humans, but its threat to our future has been exaggerated.
https://extinctionclock.org/

Using planes to spread aerosoled particles over the North and South Poles could mitigate global warming at relatively low cost ($11 billion a year).
https://iopscience.iop.org/article/10.1088/2515-7620/ac8cd3

There would be many benefits to replacing America’s aging coal power plants with nuclear power plants.
https://www.energy.gov/ne/articles/doe-report-finds-hundreds-retiring-coal-plant-sites-could-convert-nuclear

Once we dig a piece of metal out of the ground, the clock starts ticking on its return to the Earth, in one form or another. A piece of iron, for example, will rust until it fully disintegrates and all its particles blow away. A piece of metal’s time “in circulation” varies greatly by element, and is affected by factors like mining efficiency and industrial application.
https://arstechnica.com/science/2022/05/new-study-estimates-how-long-mined-metals-circulate-before-being-lost/

Starting at age 55, most people derive less and less enjoyment from leisure activities like eating out, traveling, and buying new things. This partly explains why old people spend so little of their money on non-essential purchases.
https://www.nber.org/papers/w30460#fromrss

The USDA just approved a genetically modified purple tomato that has ten times the antioxidant level as normal tomatoes.
https://newatlas.com/health-wellbeing/genetically-modified-purple-tomato-approved-usda

Chinese scientists cloned an adult wolf and gestated the zygote in a beagle. It provides another way to perpetuate endangered species.
https://www.globaltimes.cn/page/202209/1275594.shtml

Geneticists just accomplished chromosome-level engineering in mice. Techniques like this will someday lead to radical engineering of humans.
https://phys.org/news/2022-08-sustainable-chromosome-mice.html

Birds are more highly evolved than mammals in some ways. For example, one of their brain cells consumes only 1/3 the chemical energy as a mammalian brain cell. With radical genetic engineering, humans could improve the energy efficiency of our own brain cells, boosting our intelligence. The necessary changes to the human genome would be so great that it would result in the creation of a new species that might look human externally, but would not be able to breed with us.
https://www.cell.com/current-biology/fulltext/S0960-9822(22)01219-2

Spiders can sense electric fields, and take advantage of faint electrical charges in the atmosphere to fly in a process called “ballooning.”
https://www.theatlantic.com/science/archive/2018/07/the-electric-flight-of-spiders/564437/

U.S. life expectancy has dropped from 79 years in 2019 to 76.1 years today. Half of the decline is due to COVID-19, and other half is mostly due to higher rates of suicide, obesity, and substance abuse.
https://www.bbc.com/news/world-us-canada-62740249

Review: “Almost Human”

Plot:

Almost Human is a “buddy cop” TV series with a twist: It’s set in 2048, and one of the partners in an android. It is set in an unnamed American city where futuristic technologies deliver both great promise and peril for its citizens–some have lives of luxury, others are impoverished and have been left behind, and criminals have been empowered by the new tools at their disposal.

Detective John Kennex (played by Karl Urban) is a classic, hardboiled cop. He’s hotheaded, traumatized by violent experiences in his past, and struggles to form social bonds with others. Due to a change in police procedures, he’s paired with Dorian (played by Michael Ealy), an android with human emotions and a more balanced personality than Kennex.

Android cop Dorian (left) and his human partner John Kennex (right)

The series follows their unlikely partnership and the evolution of their bond, as well as of their unique personal stories, as they investigate crimes together. Every episode pits them against a new criminal or group of criminals who use a different kind of advanced technology.

I thought Almost Human was respectably thought-out and entertaining. Kennex and Dorian had an interesting and often funny personal chemistry, and the other recurring police characters were well-acted. The fictional universe in which it was set showed a high attention to detail in fleshing out the advanced technologies that would be available, as well as their social effects, though as my analysis will show, it wasn’t perfect.

I think the show failed to adequately explore how being an android and living among humans shaped Dorian’s inner world, which would have posed questions of greater intellectual substance to the viewer. At times, he seemed too much like a funny human who could do advanced calculations in his head. The plots also got more convoluted and, frankly, worse as the series went on, probably because the writers were running out of material. Almost Human was cancelled after only 13 episodes. While the show wasn’t spectacular, it would have been nice to see the additional character development and exploration of future technologies that would have happened had it been allowed a full season of 22 – 26 episodes.

Analysis:

Episode 1

Fully convincing androids will exist. During scenes set in the police station and in field missions, androids are almost always present. Aside from their mechanical way of talking and emotionless faces, they are indistinguishable from humans. Dorian is the only android at that precinct who has emotions and a warm personality. While androids will be very impressive by 2048, they won’t be able to mimic humans as exactly as they could in the show.

In my big list of future predictions, I wrote that this would be the case by the end of the 2030s: Combining all the best AI and robotics technologies, it will be possible to create general-purpose androids that could function better in the real world (e.g. – perform in the workplace, learn new things, interact with humans, navigate public spaces, manage personal affairs) than the bottom 10% of humans (e.g. – elderly people, the disabled, criminals, the mentally ill, people with poor language abilities or low IQs), and in some narrow domains, the androids will be superhuman (e.g. – physical strength, memory, math abilities). Note that businesses will still find it better to employ task-specific, non-human-looking robots instead of general purpose androids.

To elaborate, I predict that those kinds of androids will be very few in number by the end of 2039, and will be technology demonstrators and prototypes that get a lot of media coverage at carefully controlled tech company demo events. They won’t be available for any person to purchase, won’t roam around public spaces, and won’t have important jobs like working as police officers.

By 2048, the androids will be better, and aspects of their physiques, intelligence, and capabilities will overlap even more with humans, but they still won’t be able to pass as one of us in normal situations. Their body movements will be clumsier and more limited than the average human’s, probably leaving them with the same overall reflexes, nimbleness, balance, and speed as an elderly human. They will also lack the battery life to function for a whole work day in a physically demanding occupation like street cop. Also, if you could examine one at very close distance, you would see that its skin and other external features were less detailed than those of real humans.

A plausible role for an android in a police station of 2048 would be working at the reception desk. It would be tasked with talking to members of the public who came in, could answer most of their questions correctly, and could summon a human officer with the relevant expertise to deal with questions and issues it couldn’t handle alone. The android would be able to walk around the police station and to physically interact with most things it encountered (e.g. – operate door handle), but it would not be as fast or as coordinated as the average human. It would not have a gun and wouldn’t know how to fight criminals. It’s purpose would be to free up a human police officer for duties more crucial for public safety.

Androids and many other machines will be able to pass the Turing Test and to carry on long conversations with humans and to recognize human emotions and to simulate their own. Their personalities will probably rank somewhere between Dorian’s and the “stiffer” androids assigned to the police precinct.

Shooting an android in the head will kill it. There a scene where a police android is shot in the head and instantly dies. This is unrealistic because it will make the most sense to put androids’ CPUs in their torsos instead of in their heads. Doing such would improve their balance by lowering their centers of gravity, and would make them more robust since their “brains” would have more protection around them since a torso is wider than a skull. Their lack of lungs, hearts, and digestive systems will leave them with extra space in their torsos anyway. For more details, read my blog post What would a human-equivalent robot look like?

To look like humans, androids will still need heads, though their CPUs and other critical hardware won’t be in them.

Episode 2

Criminals will use “DNA bombs” to mask forensic evidence. After a pair of professional hitmen murder a man in a hotel room, one of them leaves a small canister behind that explodes after they leave. It is a “DNA bomb,” and it releases a mist composed of innumerable DNA particles, which attach themselves to all the surfaces in the hotel room, masking whatever genuine DNA evidence anyone left behind. Thanks to this, the police detectives are unable to extract useful genetic evidence from the scene.

This is a creative and probably plausible idea. Mass producing random but complete human genomes and packing them into cell-sized particles that could be sprayed out of a can is probably impossible now, but by 2048, the technical challenges might be overcome. Instead of exploding like a grenade, a DNA bomb might work better if it slowly released its load as an aerosol, like a modern “bug bomb.”

There will be sex androids. One of the “people” involved in the aforementioned murder is a female android built for prostitution. By 2048, I’ve predicted androids will be “adequate” in terms of physicality and duplication of the human body and its movements to perform sex acts on real people, though I doubt the experience will be that satisfying. However, if your senses were impaired by alcohol and the darkness of a closed bedroom, it will be good enough.

Machines will be able to monitor your vital statistics at a glance. In one scene, Dorian the android sees that his human partner’s heart rate has increased, indicating he is feeling sexual attraction to a nearby sex robot. Dorian mentions this to tease his partner. Androids and other machines will have this ability by 2048, as well as the ability to detect other vital information from nearby humans, giving them insights into many things the humans are unconsciously revealing, and perhaps trying to hide.

The Cardiocam mirror

Machines can already “see” human heartbeats: In 2011, a group of MIT students built a device styled after a bathroom mirror that had a built-in camera capable of seeing “the minute changes in skin tone that occur as facial capillaries fill and empty with the beating of a heart.” The mirror contained a display, which showed a numerical readout indicating the heart rate of the person standing in front of it. By 2048, the technology will be even more advanced. By then, expect some machines to have the ability to monitor multiple vitals at once, including voice stress, pupil dilation, blinking rate, and body language, to create real-time, composite profiles of people’s emotional states, honesty, and healthy. They will be the ultimate lie detectors and empaths.

Episode 3

Androids will have more durable bodies than humans. During a gun battle, a bullet ricochets and hits Dorian in the head. While he is damaged, he stays mostly functional and doesn’t lose consciousness. The wound looks bad enough that it probably would have instantly killed a human had the bullet struck them in the same place.

Androids certainly have the potential to be much more durable than humans, and with 2048 levels of technology, we could build androids that had bulletproof skulls and flesh (at least against pistol and lighter rifle bullets). However, I think fears of robots going haywire and attacking humans will wisely dissuade us from doing that, and the androids that do exist will be no faster, stronger, or damage-resistant than average humans.

In the far future, the sky will be the limit for robot design, however.

Episode 4

Human chemists will be needed to make illegal drugs. This episode focuses on a new synthetic drug being sold in the city. The police try to infiltrate the gang that is peddling it by disguising their forensic scientist as a rogue chemist and having him offer them his services. The gang gives him a chance by taking him to their secret lab and letting him synthesize the drug from base ingredients.

By 2048, fully automated labs will exist, and they will be able to make drugs of any kind without human help. The notion that a talented human’s “special touch” is needed to complete the process will be obsolete. That said, the machinery will still be expensive and the lab setups complex, so only pharmaceutical companies, government agencies, and perhaps well-resourced drug cartels will have them. A lower-level drug gang that only spanned one or a handful of cities would still need humans to do the lab work.

However, in the farther future, automation will create major problems by making it easy for ordinary people to synthesize drugs, or to engage in other illegal activities like building machine guns, committing thefts, or even murders. Remotely killing someone might become as simple as verbally telling a quadcopter drone to find the target, shoot him, and then fly to a distant location and self-destruct to erase the evidence.

Robots will be used as shields. In one gun battle between the police and the drug gang, the gang’s android deliberately steps in front of its boss, and uses its bulletproof body to block incoming fire. The injuries don’t appear to affect the android, and it then physically fights with the police. This was creative, and is also a realistic depiction of how androids could be used in combat situations in 2048 (I also saw this in the movie Chappie, when a humanoid robot was placed in the front of a line of police breaking through the front door of a criminal’s house). While we still won’t trust machines to make life-or-death decisions and won’t give them guns, we’ll have no problem using them as bullet shields, distractors, or medics to carry away injured humans.

Episode 5

Machines won’t be able to perfectly imitate human voices. The police find an audio recording of a recent murder. In it, a man utters a few words before shooting the victim. The forensic scientist matches the voice to that of a man who has been in prison the whole time, which seems to exculpate him since he could not have been physically present at the crime scene (it turns out his clone committed the murder). The forensic scientist then says that the man’s voice could not have been faked at scene by a machine since no technology can mimic a person’s voice so accurately.

While this is the case today, I don’t think it will be true by 2048. Given recent progress in machines mimicking human styles of musical composition and artistry, I think it’s certain that they will figure out how to perfectly imitate individual human voices within the next 26 years.

Episode 6

Each android model will consist of many, identical individuals. In this episode, Dorian meets an android of his same model, and they look identical. This will be the case for reasons of economy: It is cheaper for companies to make long runs of identical products than it is to make each on unique. While there will be one-off, bespoke androids in 2048, most of them will be mass-produced products that come off assembly lines.

The most common police android model in the show.

That said, robotics companies will make efforts to vary the appearances of their androids in the same way that today’s car makers sell the same model in different colors and option/trim packages. Customers will have choices over hair, eye and skin color, and maybe other biometrics (today’s sex doll industry probably offers insights into what physical parameters will be selectable). However, it’s still common for car owners to encounter vehicles identical to their own on the roads, and so it will be for androids in 2048.

Episode 7

Androids will be able to yell really loudly. During a car chase, Dorian communicates with the criminal vehicle by yelling at it with the same volume that a human could only achieve with the help of a bullhorn. We already have tiny, simple devices like smoke alarms that can generate noises louder than human vocal cords can produce, so there should be no technological or financial hurdle to gifting androids in 2048 with the same capabilities. It might be a useful, nonlethal defensive feature that they could use to repel bad humans (perhaps in defense of their human owners) or to summon help in emergency situations.

If we ever get into a war with intelligent machines, they will probably make use of sound warfare during engagements. Loud, startling noises distract and scare humans and make it harder for us to communicate with each other. Machines, on the other hand, would be little affected.

There will be tiny, disposable cameras. In the episode, a perverted criminal paralyzes a victim, locks and explosive collar around his necks, places thumbtack-sized cameras in the victim’s car, and then leaves the scene. When the victim awakens, his panicked, final ordeal is filmed by the cameras and the footage streamed to the internet for people to watch, before the criminal remotely detonates the bomb, killing the man.

With the rate at which electronics are shrinking and dropping in cost, cameras like this will be available by 2048. As in the episode, they will be cheap, single-use devices with adhesive sides, allowing them to be stuck to surfaces, and they will have wireless transmission capabilities and enough battery life to function for a few hours.

Episode 8

There will be guided bullets. In this episode, a team of assassins is using an advanced military rifle that fires guided bullets to kill people in the city. I think guided bullets will be reliable, affordable, and effective by the 2050s, though they won’t be able to perform the sharp turns or to linger in the air like the ones in the show could. One or two degrees of course change per 100 meters of bullet travel is more like it. The shooter would still need a clear line of sight to his target, and would still need to carefully aim the weapon at it. The guided bullets would turn near-misses and off-center hits to nonvital areas into consistent headshots, making average shooters as effective as today’s trained snipers.

That said, small, aerial drones armed with off-the-shelf guns or small explosives could let assassins in 2048 do remote, autonomous killings of people, like those depicted in the episode. By then, a variety of technologies that only big companies and government agencies have now will be more advanced and available to the public. It will be relatively easy to equip a drone with sensors, including cameras loaded with facial recognition algorithms, that allow it to track down specific humans and kill them. In other words, by 2048, assassins will be able to use high-tech weapons to remotely kill people as happened in the episode, but the weapons won’t be guided bullets.

There will be a technology that lets people erase specific memories. A woman who learns that she is the assassins’ next target hatches a plan to make them leave her alone. They want her dead because she knows their identities, so she visits a black market doctor to have him use a machine to delete her memories of them. She plans to videotape the procedure and send it to the assassins as proof.

Our understanding of how the brain stores memories is poor, and while it will surely be better in 2048, I doubt there will be medical procedures that can erase specific memories. Part of the reason is that individual memories are not stored in discrete locations within the brain–any one memory is spread out among neural pathways distributed throughout a brain. Moreover, even if you could somehow erase one memory, the changes it would make to the pathways would probably erase or diminish memories of other things.

Current research into treating PTSD could lead to therapies where people take drugs in controlled clinical settings, while focusing on bad memories, to diminish them. None of the drugs have proven successful yet, but by 2048, it’s plausible at least one could be approved. However, I doubt it will be anywhere near as effective as the memory-erasing machine featured in the episode.

Episode 9

Combat robots will play dead sometimes. Hoping to gain access to the police station’s heavily guarded evidence room, an evil android kills a random woman in public, knowing that the police will quickly arrive. Once they do, the android tries attacking them, provoking their gunfire. The evil android collapses after the first bullet impact and pretends to be dead. The ruse fools the police, who then take the android to the evidence room for later examination to determine why it killed the woman. After a few minutes, the evil android reactivates itself and starts running around the room.

This kind of ingenuity is something we should generally expect from AGIs. “Playing dead” is a specific tactic that will probably become common among combat robots. Unlike humans, machines will be able to totally shut down their life functions for temporary periods, making it impossible for observers to tell if they were actually dead. Feigning death would be a valuable tactic since it would let them do surprise attacks on unsuspecting enemies (i.e. – it jumps up and attacks you from behind right after you walk by it), or to escape after the enemies left the area. Moreover, the fact that robots are capable of playing dead will force enemies to totally destroy hostile combat robots before proceeding, slowing them down and forcing them to expend more munitions.

Episode 10

Advanced human genetic engineering will start in the 2020s. In this episode, it’s revealed that a small but highly visible minority of people are genetically engineered. Several young adult characters, including one of the police detectives, were engineered at conception to have ideal combinations of looks, intelligence, and health. These highly modified people are nicknamed “Chromes.” Based on their ages and the fact that the show is set in 2048, we can conclude that human genetic engineering became routine for rich people in the 2020s. This won’t happen.

The shockingly beautiful actress Minka Kelly plays the genetically engineered detective “Valerie Stahl.”

The first genetically engineered humans (both female) were created in China in 2018. Instead of being genetic supergirls full of hundreds of DNA tweaks, the twins only had alterations to one gene called “CCR5.” The changes were meant to confer enhanced natural resistance to HIV infection, which was especially useful for them since their father has the virus. Though the geneticist’s intervention did alter their genomes, it’s unclear whether the targeted gene was changed in the desired way. One or both of them might actually have not benefitted from the procedure, or might even be worse off thanks to unwanted alterations to other genes. Only time will tell.

This struggle to change just one gene in a human embryo shows how behind schedule our technology is in creating highly engineered people like the Chromes. Moreover, there’s still a huge social stigma in Western countries about genetically modifying humans.

It’s more realistic that, by 2048, human genetic engineering will start becoming common among rich people. Instead of being able to customize your offspring in every respect and to make them the “total package” of looks, smarts, and athleticism, you might be able to change ten genes, which would only give them slight advantages over naturally born people. It won’t count as “advanced” genetic engineering. In fact, in 2048, IVF embryo selection might actually provide more benefits than genetic engineering.

Professional advice will be available anywhere. While investigating a suspicious death, the police question a man at his home. Concerned about his legal rights, the man summons his lawyer via telepresence to mediate. The lawyer appears as a hologram in the middle of the room, and repeatedly interrupts the conversation between the other parties in ways meant to protect his client.

I doubt 3D holograms like that will exist by 2048, but I’m sure that other forms of telepresence will let lawyers and other people like doctors, therapists, and personal trainers interact with and help us in the real world almost anytime. Additionally, even if true AGIs don’t exist by then, narrow AIs will be advanced enough and good enough at natural language to accurately mimic other humans, and to render useful professional advice as a human with those skills would. This kind of access to professional advice will partly level the playing field between people with different personal resources, and change society in many other ways we can’t imagine now.

That means the police questioning scene will be fundamentally accurate for 2048, though the lawyer would only be visible on a video display in the room, or as a 3D rendering that could only be seen with the aid of augmented reality glasses.

Episode 11

It will be legal for machines to kill people. In this episode, hackers remotely take over a home security system belonging to a rich couple. As a result, an automated machine gun turret shoots the husband to death. It is later revealed that this was retaliation against the family because the same computer-controlled machine gun had killed a harmless teenager who had trespassed on the yard a year earlier.

By 2048, the technology will exist to build a home security system that could tell trespassers apart from residents and then shoot them. However, it will be illegal to possess, and only people like dictators and crime bosses will have them. Humans will strongly resist the idea of giving machines the right or ability to kill other people without human input (this is also why android cops won’t have guns), which is also why armed police, jurors, and judges will be among the last jobs to be automated.

The big exception to this will be in the military sphere. By 2048, at least one major military will be using some type of combat robot (whether it is airborne, seaborne, or terrestrial) that is empowered to fire on human enemies autonomously. While I expect there will be a global ban on autonomous killer drones, it will ultimately be discarded once the technology gets good enough and cheap enough. The potential military advantages will be too great to resist, and enforcement of any ban will be nearly impossible since killer robot factories will be much easier to hide than, say, nuclear weapons facilities.

Episode 12

Nanomachines will change human bodies from the inside. In this episode, a deranged man who hates his own appearance kills people so he can get their DNA samples and then alter his own genes so he gains specific, desirable physical features from them. A black market surgeon helps him with this by performing an experimental procedure in which nanomachines programmed with the victims’ DNA are injected into the criminal’s face. The nanomachines then alter the tissue in the criminal’s face so they match the facial features specified in the victims’ DNA.

First, if you wanted to steal another person’s DNA in 2048 or today, you wouldn’t need to kill them; you would only need to grab a discarded plastic cup they drank out of, or a tissue they blew their nose into, or something like that. People shed their DNA constantly.

Second, in the longer run, we’ll understand what every part of the human genome does, leading to the creation of something like a huge catalog of outward human features (like nose shapes and eye colors) matched with the combinations of genes that produced them. If you wanted a nose job, you could just look at the catalog to find one you liked instead of walking all around a city staring at strangers’ noses until you found a good one. Then you could alter your nose genes accordingly.

Third, there’s virtually no chance that nanomachines will be advanced enough to do plastic surgery on people by 2048. Progress developing nanomachines has happened at a snail’s pace, and the few that do exist have no useful capabilities. In theory, nanomachines will these advanced functions could exist someday. After all, the existence of flesh-eating bacteria and of bacteria that stimulate other cells’ growth show that nanoscale organic machines can alter how much tissue there is in part of an animal. A big and unsolved problem is controlling the behavior of the nanomachines once they’re injected into a person’s body.

By the end of this century, a plausible nanotech-based plastic nose job would involve the patent having his head held tightly in place with restraints while nanomachines (either of fully synthetic construction or highly modified bacteria) were injected into his nose with very fine needles. Some kind of external device, maybe using radio waves, pulses of light, or magnets, would activate the nanomachines, carefully control their activities, and keep them in very specific parts of the nose. One square millimeter at a time, the cartilage and bone in the patient’s nose would be destroyed or built up, slowly changing its overall shape.

Due to safety concerns and probably also to the limitations of the technology, the nanomachines would either be removed or would stop working after a short time and disintegrate. Multiple sessions involving the technique, spread out over weeks so the plastic surgeon could observe the intermediate results and deal with any complications, would probably be needed to achieve the desired nose shape. A procedure like the one depicted in the show, involving a vial of nanomachines injected into your arm, and then them migrating through your body on their own to a specific place where they alter your tissue as you scream in pain and watch your appearance change in a matter of seconds, will never be a reality.

Episode 13

There will be invisible force fields. In this episode, the police go to speak with an imprisoned man, and we see that good old fashioned steel bars have been replaced with invisible force fields. This is another ubiquitous sci fi trope that makes no sense. There is no force that we could harness through any type of technology that would block physical objects in the way that fictional force fields do. The only device that can approximate its effects is a “plasma window,” which is comprised of a flat plane electromagnetic field that is pumped full of super hot charged particles. It would burn any person or thing that passed through it, though it wouldn’t physically “push back” against them. If you had a running start and were willing to suffer injuries, you could get through one.

A plasma window

While it’s likely that plasma window technology will get cheaper and better, the fact that they require large amounts of power and injure anyone who touches them will curtail their use. In 2048 and beyond, jails will have metal bars like they do now.

3D bioprinters will be able to make whole human bodies. This episode’s villain is another disturbed criminal with access to advanced technology. He kidnaps people and takes them back to his lab for illegal medical experiments that last for days or weeks. To cover up their disappearances, he uses a large 3D bioprinter and their DNA to make dead, whole-body copies of them and then dumps the manufactured corpses in public places at night. The discoveries of the fake corpses are meant to lead the police astray, since they’ll never assume the victims are actually alive and being experimented on.

Ultimately, it will be possible to “manufacture” whole adult human bodies in labs (Blade Runner’s Replicants were examples of this), though 2048 will be way too early. By then, the best that 3D bioprinters and related technologies will probably be able to muster is manufacturing some types of tissue (skin, cartilage) and simple organs like bladders and tracheas. We can technically already do this, but the results are usually of poor quality.

Links:

  1. The “Cardiocam” mirror can measure the heartrate of anyone who stands in front of it. https://www.livescience.com/15469-cardiocam-mirror-mit-siggraph.html
  2. Cheap, tiny cameras like the Himax HM01B0 are already available. The technology will be even better by 2048.
    https://petewarden.com/2022/06/15/why-cameras-are-soon-going-to-be-everywhere/
  3. Research is ongoing on drug/therapy combinations that could fade traumatic memories away.
    https://www.medicalnewstoday.com/articles/a-mind-without-fear-could-this-potential-drug-treat-ptsd-and-anxiety#New-drugs-necessary

Interesting articles, August 2022

A prediction that failed to come true was that Putin would officially declare war on Ukraine during Russia’s May 9 military celebrations.
https://www.cnn.com/2022/05/03/europe/russia-ukraine-declaration-of-war-intl-hnk-ml/index.html

This prediction that Putin would declare “victory” over Ukraine on May 9 also failed.
https://www.newsweek.com/exiled-russian-official-certain-putin-will-claim-victory-may-9th-1698023

A car bomb meant to kill a famous Russian ultra-nationalist author and political scientist instead killed his adult daughter, who was following in her father’s career footsteps. The Russian government blames Ukrainian agents, but there is no real proof yet.
https://www.cnn.com/2022/08/20/europe/darya-dugina-killed-car-explosion-alexander-dugin-russia-intl-hnk/index.html

Last month, an explosion at a POW camp housing Ukrainian soldiers killed over 50 of them. Their Russian jailers blamed a Ukrainian missile strike, but photographic analysis indicates this is false.
https://www.cnn.com/interactive/2022/08/europe/olenivka-donetsk-prison-attack/index.html

Ukraine has become a carnival of disparate types of military vehicles and weapons donated by many other countries.
https://www.thedrive.com/the-war-zone/antique-ferret-armored-car-shows-up-in-ukraine

Ukraine’s recent attack on a Russian airbase in Crimea caused less damage than originally claimed.
https://www.thedrive.com/the-war-zone/no-major-damage-seen-at-russian-airbase-in-crimea-after-reported-attack

Belgium’s paltry aid to Ukraine shows the poor state of its own military.
https://www.oryxspioenkop.com/2022/08/a-show-of-shame-belgian-weapons.html

Russia’s military losses in the Ukraine War are about $34 billion so far. If the War ended today, Russia could replace its losses over the next five years if it raised its defense budget by 12%, which would be a tolerable strain on its economy and taxpayers. It could replace its armored vehicle losses by upgrading old tanks that have been in storage for decades, and by increasing production rates of new vehicles at existing factories. However, the War isn’t going to end today, and it and the associated sanctions could instead turn into a massive resource drain that depletes even Russia’s famously large stockpiles of old weapons.
https://www.youtube.com/watch?v=9SJHZAG4c2w

Putin has ordered the Russian army to expand by 13%, or 137,000 men, by the end of this year. This is certainly meant to make up for the country’s losses sustained so far in Ukraine (at least 15,000 dead and some multiple of that permanently put out of action by injury), plus those expected to be lost during the next four months.
https://apnews.com/article/russia-ukraine-government-and-politics-d0f341d2f5c295c0f7be4ee1ba8b60fe

Ukrainian military forces have made a habit of positioning themselves needlessly close to civilians, either hoping that the proximity would dissuade the Russians from firing on them, or that Russian attacks would accidentally kill civilians, eliciting sympathy from the West.
https://www.npr.org/2022/08/05/1115767497/amnesty-international-ukraine-military-civilians-war-crimes

China was infuriated when Nancy Pelosi, the third-highest-ranking politician in the U.S., visited Taiwan. China’s military staged massive military exercises in response to intimidate the island and America.
https://www.cnn.com/2022/08/04/asia/china-taiwan-military-exercises-intl-hnk-ml/index.html

Taiwan’s tanks are old, but still adequate for their intended defensive role. This is because if China invaded, it would only be able to send its light amphibious tanks to the island, and they have weak armor and only average guns. Taiwan’s tanks are a match for them. That said, Taiwan could substantially improve its loss/kill ratios in such a conflict by buying newer, better thanks now. The video makes it clear that a mixed force of modern, heavy M1 Abrams tanks and a much lighter armored vehicle would dominate the Chinese amphibious tanks.
https://www.youtube.com/watch?v=Zf2JYLlqoCE

A new tabletop exercise finds that American and Taiwanese forces could repel an all-out Chinese invasion of the island, but at high cost.
https://asiatimes.com/2022/08/chinas-drills-to-change-us-military-assumptions/

Here’s an in-depth analysis of the Russian AK-107 assault rifle, which has a complex “balanced recoil system” that its designers claim almost eliminates felt recoil. In reality, it doesn’t yield enough of a benefit to justify the extra cost, complexity, weight, and reliability penalties that it imposes on an AK rifle. Screwing a simple compensator onto the end of the barrel is a much better way to improve the weapon’s controllability. Like so many advanced Russian weapons, the AK-107’s mystique dissolves once Westerners are able to get their hands on it and do tests and analyses. This is why you should be skeptical of Russia’s claims to have things like working hypersonic missiles and nuclear torpedoes that can make tsunamis.
https://www.youtube.com/watch?v=-5LTiCZwEOo

Here’s a nifty new device: rubber bands that go around the barrels of rifles and change colors as they get hotter. Gun barrels warm up as more bullets are shot through them, which temporarily warps the metal and changes the trajectories of the bullets. A shooter could adjust his aim accordingly if he could tell at a glance how hot his barrel was.
https://www.thefirearmblog.com/blog/2022/08/25/caveman-spark-ar-15-crush-washers/

The USSR’s legendary T-34 tank was overrated in many ways. These men go inside one and show how fundamentally unsafe and uncomfortable it was for its crewmen.
https://www.youtube.com/watch?v=EBqCLHfcHGY

The U.S. has an enormous economy of scale advantage when it comes to the defense sector, that in turn guarantees the global primacy of American weapons. It makes no economic sense for countries will smaller economies to even try developing their own high-end weapons like fighter planes.
https://youtu.be/7Z_gTGJc7nQ

I agree with all of Henry Kissinger’s opinions about U.S. foreign policy, China and Russia.
https://www.wsj.com/articles/henry-kissinger-is-worried-about-disequilibrium-11660325251

Quantum supremacy has been lost…for now.
https://www.science.org/content/article/ordinary-computers-can-beat-google-s-quantum-computer-after-all

Recent advances in computer-generated art, writing, and other types of content creation suggest a deluge of high-quality, customized digital content is coming in the near future. Maybe humans will end up living in billions of Matrix simulations, with each one optimized for the needs and tastes of each human.
https://socialwarming.substack.com/p/the-approaching-tsunami-of-addictive

Google has unveiled experimental house robots that can obey human voice commands to do simple tasks like handing people cans of soda. I’m surprised that machines haven’t mastered such skills, yet can now create artwork as well as the best humans. Expect more counterintuitive improvements to machine capabilities as time passes. It won’t be like in the movies.
https://www.reuters.com/technology/ok-google-get-me-coke-ai-giant-demos-soda-fetching-robots-2022-08-16/

These plumbing leak sensors are all impractical due to cost and/or limited leak detection ability. A much better alternative to hooking up an electronic water flow meter to each water fixture in your house would be to have a robot walk around and check them once a week. You could probably get away with doing it much less often than that. You’d get the most bang for your buck by having a robot monitor your house’s water meter during periods of time when no water was being used in your house, like multi-hour stretches when you were away at work. If the meter showed water consumption was happening during those times, the robot would know a pipe was leaking somewhere in your house, and it would look for it.
https://www.nytimes.com/wirecutter/blog/smart-gadgets-save-homes-from-water-leaks/

Here’s a fascinating interview with world-renowned cosmologist and thinker Martin Rees.
https://www.youtube.com/watch?v=50r-5ULcWgY

We still have no good explanations for the recent, high-profile UFO sightings by U.S. military people.
https://aerospaceamerica.aiaa.org/features/mystery-of-the-damn-things/

NASA has chosen landing sites near the Moon’s south pole that its astronauts will visit during this decade’s missions there.
https://www.stripes.com/theaters/us/2022-08-19/nasa-reveals-where-next-americans-land-moon-7040435.html

‘The Moon is an ideal location to launch intercepting missions to life-threatening and catastrophic asteroids. The effectiveness of the interception greatly depends on the weight of the spacecraft. Unfortunately, interceptors launched from the Earth lose more than 98% of their weight by burning the majority of their onboard fuel and by jettisoning their lower stage structures before entering a heliocentric orbit. However, if interceptors are launched from the Moon by a lunar surface accelerator, they can enter a heliocentric orbit without consuming any onboard fuel or jettisoning any part of the spacecraft. A 5-ton construction package, which consists of robots and industrial production equipment, would enable mining on the moon and construction of a 3.5 km-long, 5,000-ton accelerator.’
https://www.sciencedirect.com/science/article/pii/S2468896717300617

Here’s a Twitter thread about advances in hydrogen energy technology.
https://twitter.com/gnievchenko/status/1545409816130207744

Batteries only need to get a little bit better for it to make financial sense to convert smaller cargo ships to use electric engines. Today, those ships use diesel engines that burn very dirty fuel and are very polluting.
https://www.nature.com/articles/s41560-022-01065-y

Solar panels will be installed over canals in California, reducing evaporation and unwanted plant growth.
https://www.cbsnews.com/news/california-solar-panels-canals-drought/

For the first time, Americans spent more time watching internet-streaming video than cable TV.
https://www.wsj.com/articles/americans-spent-more-time-streaming-than-watching-cable-tv-in-julya-first-11660827184

Like wildfires, floods are natural events that are part of nature’s cycle of renewal. Floods only became “problems” once humans started building structures too close to rivers and lakes.
https://education.nationalgeographic.org/resource/many-effects-flooding

Large volcanic eruptions are a greater threat to Earth and humans than asteroid impacts, yet the latter gets more attention and more preventative funding. We should spend more money to monitor volcanoes and investigate the feasibility of defusing volcanoes before they erupt by drilling ventilation holes into their magma chambers.
https://www.nature.com/articles/d41586-022-02177-x

This year’s massive volcanic eruption in Tonga put so much water vapor into the stratosphere that it will temporarily worsen global warming by a tiny amount.
https://www.npr.org/2022/08/03/1115378385/tonga-volcano-stratosphere-water-warming

An unmanned boat, remotely piloted by people on the other side of the world, has been using sonar to map the underwater volcano in Tonga.
https://www.bbc.com/news/science-environment-62606589

“Kale, Brussels sprouts, cauliflower, and cabbage are all varieties of a single magical plant species.” This makes me wonder what new types of plants with new flavor profiles are possible with genetic engineering and selective breeding.
https://www.vox.com/xpress/2014/8/6/5974989/kale-cauliflower-cabbage-broccoli-same-plant

The human eye and its associated nerves and muscles have many design flaws. Octopi and squid actually have better-evolved eyes than we do. Radically redesigned eyes are a good example of a improvement that our descendants will have in the future, courtesy of genetic engineering. Externally, their eyes will look like ours, but the amount of genetic reprogramming necessary to make theirs will be so great that they won’t have Homo sapiens genomes.
https://evolution-outreach.biomedcentral.com/articles/10.1007/s12052-008-0092-1

Lab-made corneas composed of collagen extracted from pigs cured blindness in several people with “keratoconus.”
https://www.zmescience.com/medicine/artificial-cornea-cure-blindness-12082022/

The first synthetic mouse embryos, which were made from only the mother’s DNA, have been created. This or another technique will eventually be used on humans, and will allow single people to conceive children regardless of their own natural fertility status, and without need of a partner’s DNA. It will also inaugurate an era of unauthorized human cloning, where DNA samples of unwitting third parties will be surreptitiously collected and then traded on black markets.
https://apnews.com/article/synthetic-mouse-embryos-created-7f75da0c53f9d22c4e4dbf8a847d75bf

In the long run, the slowdown in the human population growth rate and possible decline is nothing to worry about. Technology will provide solutions to it.
https://astralcodexten.substack.com/p/slightly-against-underpopulation

The leading theory about what causes Alzheimer’s disease–agglomerations of protein plaques in the spaces between brain cells–might be wrong. In fact, a seminal scientific paper supporting the theory might be full of fraudulent data. Billions of dollars have been spent developing Alzheimer’s drugs that target the protein plaques in the brain, and all have failed to help patients. If a scientist’s deliberate fraud caused this, then I think it should be considered a crime against humanity.
https://www.science.org/content/article/potential-fabrication-research-images-threatens-key-theory-alzheimers-disease

Minoxidil was approved as a hair loss treatment in 1988, and came as a liquid that men sprayed on their scalps. Recently, doctors have discovered that putting the medicine into swallowable pills is more effective. It’s remarkable that no one thought of this sooner.
https://www.seattletimes.com/nation-world/an-old-medicine-grows-new-hair-for-pennies-a-day-doctors-say/

Interesting articles, July 2022

Russia is learning from the mistakes it made early in the Ukraine invasion. Among other improvements, it has adopted better countermeasures against Ukrainian drones.
https://www.businessinsider.com/drones-russia-ukraine-war-electronic-warfare-2022-7

Here’s a video of Ukrainian troops operating a captured Russian T-80 tank. They praise its gas turbine engine and high technology.
https://www.youtube.com/watch?v=xFzXiAdfPvw

Contrary to widespread rumors, there’s no real evidence that Vladimir Putin has a chronic illness.
https://www.bbc.com/news/world-europe-62246914

The CIA estimates 15,000 Russian troops have died in Ukraine so far.
https://www.jpost.com/breaking-news/article-712678

In 1951, the CIA got its hands on a T-34/85 tank, the USSR’s best tank of WWII, and did a detailed technical analysis of it. Overall, they thought it was great, but with notable defects. It would be interesting to see what an Americanized T-34/85, with all the flaws the CIA found being fixed, would have been like.
https://www.cia.gov/readingroom/docs/CIA-RDP81-01044R000100070001-4.pdf

Here’s a detailed analysis of the Soviet/Russian BMP armored vehicles.
https://www.youtube.com/watch?v=4J9Acowtluk

A “Zephyr” solar-powered drone just flew from Arizona to Belize without landing. It took 17 days.
https://www.thedrive.com/the-war-zone/zephyr-high-flying-drone-has-been-up-for-17-days-as-part-of-army-test

Someone attached a remove-controlled assault rifle to a robot dog’s back. Though it’s clearly too crude to be useful, it points towards something that will be common in the future.
https://www.youtube.com/watch?v=-It_O0bL0v8

The forgotten 2000 film Red Planet featured a killer robot named “AMEE.” Its superhuman speed and agility make it a potential mass murderer if armed only with a kitchen knife. In the far future, I think robots will have these kinds of capabilities.
https://www.youtube.com/watch?v=Y75hrsA7jyw

A database containing the personal information of 1 billion Chinese citizens was hacked and is now for sale online.
https://www.bbc.com/news/technology-62097594

Computers can now generate lifelike images of foods and meals based on user text prompts.
https://nyx-ai.github.io/stylegan2-flax-tpu/

A guy who dropped out of high school, failed as a poet, took six years to get a bachelors degree (after failing several classes), and only discovered an interest in math during that sixth year, just won a Fields medal.
https://www.quantamagazine.org/june-huh-high-school-dropout-wins-the-fields-medal-20220705/

The U.S. Supreme Court has ruled that states can ban women from getting abortions because their fetuses have Down Syndrome.
https://apnews.com/article/abortion-us-supreme-court-health-phoenix-doug-ducey-a24fb1d27a3ffe6f386b8c8785be3937

The scientific evidence that parents who suffer life traumas can pass some traces of them on to their offspring via epigenetics is weaker than thought.
http://www.wiringthebrain.com/2018/05/grandmas-trauma-critical-appraisal-of.html

Using gene therapy, scientists can cure hemophilia B with one injection.
https://www.bbc.com/news/health-62240061

A fourth person has been cured of HIV thanks to a bone marrow transplant.
https://www.bbc.com/news/health-62312249

‘[We’re] now releasing predicted structures for nearly all catalogued proteins known to science, which will expand the AlphaFold DB by over 200x – from nearly 1 million structures to over 200 million structures – with the potential to dramatically increase our understanding of biology.’
https://www.deepmind.com/blog/alphafold-reveals-the-structure-of-the-protein-universe

Brussel sprouts are noticeably more palatable now than they were as late as the 1990s thanks to selective breeding for flavor.
https://www.npr.org/sections/thesalt/2019/10/30/773457637/from-culinary-dud-to-stud-how-dutch-plant-breeders-built-our-brussels-sprouts-bo

It might be possible to grow plants in the dark by feeding them nutrients produced by algae. The algae, in turn, are fed nutrients created through a process called “electrocatalysis,” which harnesses electricity generated by solar panels. In effect, the plant crops would still be nourished by sunlight, though the artificial process might be more efficient since solar panels are better at turning sunlight into energy than chloroplasts inside of plant leaves are.
https://www.wired.com/story/plants-growing-in-darkness/

A carnivorous plant that lives underground was discovered in Indonesia.
https://www.cnn.com/2022/07/01/world/carnivorous-plant-lives-underground-discovered-scn/index.html

Today’s skyscrapers could stay standing for thousands of years, so long as people are around to do piecemeal replacements of their structural parts as they wear out over time. Buildings can be designed from the outset to make this easier to do.
https://www.youtube.com/watch?v=1v3f_Q-ySa4

A famous sculpture called the “Elgin Marbles” has been digitally scanned using 3D cameras. A robot sculptor could use the data to make a near-perfect replica.
https://www.dailymail.co.uk/sciencetech/article-10651775/Digital-archaeologists-secretly-scan-Elgin-Marbles-inside-British-Museum.html

If you don’t like how Amazon treats it’s warehouse employees, don’t worry: the company is hard at work finding ways to replace them with robots, and in time it will succeed.
https://www.theverge.com/2022/6/21/23177756/amazon-warehouse-robots-proteus-autonomous-cart-delivery

Google fired Blake Lemoine, the computer scientist who publicly claimed the company had a sentient AI.
https://bigtechnology.substack.com/p/google-fires-blake-lemoine-engineer

Across several domains of software, exponentially large improvements to hardware are required to make linear gains in performance. This means if Moore’s Law stops, progress will really slow down.
http://arxiv.org/abs/2206.14007

The James Webb Space Telescope has sent its first images of space back to Earth.
http://www.nasa.gov/webbfirstimages

The bellicose head of Russia’s space agency has been fired.
https://www.cbsnews.com/news/russian-space-chief-dismissed-nasa-gets-deal-for-joint-crews/

Russia has given notice they will abandon their part of the International Space Station in 2024.
https://www.bbc.com/news/world-europe-62308069

In a move reminiscent of something Weyland-Yutani would do, the U.S. government wants to send people into remote areas of the world to collect samples of deadly, rare diseases and send them to American labs.
https://www.vox.com/future-perfect/2022/5/7/22973296/virus-hunting-discovery-deep-vzn-global-virome-project