Musings

Instead of doing a long essay or analysis, I’m trying something different this month by posting a bunch of short, undeveloped thoughts that are in line with the usual topics I cover on this blog. Frankly, I can’t manage more than this right now since my life has gotten VERY busy, though I have hope things will calm down soon. Here are my musings…

In the not-too-distant future, I think it will be possible to make a “computerized helmet” that could induce altered states of consciousness. The inside of the helmet would have electrodes that monitored your brain’s activity, and headphones would be attached to its sides, and video display to its front. Think of it as the Ganzfeld Experiment on steroids.

When worn, the helmet would play combinations of images and sounds, monitor their effects on your brain activity, and change the images and sounds in real time to ease your mind into an altered state. Each person might need a unique audiovisual experience to attain it, and some might be totally resistant to the machine’s effects.

In the far future, once we have advanced brain implants that are integrated into every region of the brain, it should be possible to use the devices to trigger any desired mental state, including ecstasy or intoxication. Direct electronic stimulation of the brain’s pleasure regions could make chemical-based drugs like heroin obsolete. The ability to experience blinding, pure pleasure on command might also be the doom of the human race as we know it.

If it is possible to make robots that look and act just like humans (androids), then it should be possible to make robot imitations of animals. In fact, I think the latter would be easier since animals have narrower ranges of behaviors, emotional states, and cognition. There would be some demand for animal-robots from people who wanted pets but without the hassles of dealing with their waste, feeding, or other needs. Moreover, since robots have effectively unlimited lifespans, they would be attractive to people who couldn’t bear the pain of seeing their pets age, sicken and die.

Robots are also infinitely more customizable than biological organisms, meaning people could have pets custom-made for their needs. One person might make a robot replica of a beloved natural pet that died, complete with an accurate personality and behavioral profile derived from video footage of the original pet. Another person might want a cat that was as smart as a human child and could speak simple sentences. Someone else might want a robotic cat-dog hybrid.

With moderate levels of genetic engineering, domesticated animals like cats and dogs could be made to understand a wider range of spoken human words and could make more sounds of their own, though they’ll never achieve the ability to truly understand and speak language. Computers will assist by “translating” animal noises, facial expressions, and other behaviors into human speech that nearby people can understand (this was recently done with pig grunts), and perhaps by doing the reverse for the animals’ benefit. In the very long run, linked brain implants will let us sense what animals are thinking and feeling, and to telepathically communicate with them to some degree.

One solution to global warming is to put large sunshades in space, positioned between the Sun and Earth. They would block sunlight from reaching the planet, cooling it down. Instead of there being only one, large sunshade, there would be many small ones, whose shadows would, in aggregate, cover the same area that a single large one would.

The sunshades would be able to maneuver, so they could cast their shadows on specific parts of the Earth, at specific times. We could have scheduled, “artificial eclipses” over cities if people wanted to experience them, and we could cool down hurricanes to weaken them, or cool down their fringes to steer them away from land.

As a bonus, the sunward sides of the sunshades would be covered in solar panels, producing electricity that the sunshades could use to power their maneuvering thrusters or to recharge other space ships that docked with them. They might even beam some of the power down to the Earth’s surface as microwaves.

Note: I have no illusions that we could launch enough sunshades into space to halt global warming anytime soon. We need to use technologies that already exist to deal with the problem, starting now.

Sunshades could also act as planet-killing weapons. Build one and position it so it blocks all light from reaching a planet from the star it is orbiting. This would only work against planets that lacked intelligent life forms capable of space flight.

Once AGI exists, it will be able to accurately emulate the styles of famous, long-dead writers and artists like Shakespeare, Frank Lloyd Wright, and Stanley Kubrick, and to produce new creative works in the same veins. It might even be better.

If we’re willing to throw a lot of resources at the problem, we might be able to use “ancestor simulations” to replicate, say, Shakespeare. Start with an accurate simulation of 1600s England and experiment with different Shakespeare bots, each growing up in environments as closely matching his as possible. See what plays each bot produces, and rewind and replay the simulation as many times as is needed, but with iterative tweaks to the environment and/or to the Shakespeare bot until the plays align with those the real Shakespeare wrote. At that point, you’re done, and you could use the bot to write entirely new, authentic plays.

Once restaurants have robot chefs, not only will the quality of the meals increase but the variety will as well. A team of robots would know how to combine ten, simple ingredients in enough ways to make hundreds of dishes (think of how contestant chefs on the show Chopped have to creatively use random ingredients to make meals in a hurry). A customer could even upload a complex recipe to the robots that they had never seen before and have it prepared expertly. Instead of future dining consisting of insect paste and some kind of bland, artificial food, I see things headed in the opposite direction, towards more complexity and variety.

Whenever wormholes are depicted in science fiction, they’re always used as a means of transportation across vast distances. However, the wormholes would have other, revolutionary applications. A tiny wormhole that had one end in a portable electronic device and another end in a large power plant could serve as an effectively unlimited “battery” for the device. Another tiny wormhole with one end in the device and the other in a massive heat sink could also remove effectively unlimited amounts of waste heat from the former. A Star Wars laser pistol that could fire an infinite number of shots, each powerful enough to kill someone, could be built.

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