This is something I wrote a long time ago, but which still bears out, I believe. It is a method I would be willing to employ to transfer my consciousness into another body, or into a computer.
To illustrate why this is important, let me say that I would not be willing to use a teletransporter that copied
my entire physical form, sent the data to another terminal which
reconstituted me, and then destroyed the original. Although I have no
philosophical objections to this happening, I find the idea highly
emotionally disturbing and would never go through with it. For that
matter, even if the original wasn't destroyed but was rather pulled
apart and transferred, I still wouldn't do it for reasons I think are
obvious.
Likewise, I would not be willing to be, say, put to sleep, have my brain
scanned, then be uploaded to a machine and have my body destroyed. I
would not object, of course, to having a copy of my mind made, to be run
later or used as a sort of back up.
However, there is a way I would be
willing to actually abandon my body and live in a virtual world
(assuming of course all assurances of liberty and safety, etc). If my
various faculties — sight, hearing, language, independent limb motor
control — were to be transfered one by one to an emulator running on a
computer connected to the various sensors and devices which would
temporarily mimic said faculties, I would be able to track the progress
of my mind from my head to the computer. I imagine the process something
rather like this:
I sit down in the chair, my head shaved and access plugs and
sub-cranial scanning mesh installed. The technician behind me takes one
long wire and inserts the end of it into the plug square in the back of
my head. He asks me if I'm ready. I take a deep breath and then nod. I
hear a switch flip, and then I vomit. My body thinks that I'm having a
stroke, or have an eyeball knocked out of its socket, or am spinning
faster than my eyes can focus on anything. After a few moments, I start
to orient myself. I am looking ahead, at a large black box, the size of a
television set, with a forest of instruments sticking out of it. I also
see my body, sitting in a chair, a host of medical equipment and one
technician behind me. I raise my right hand from the arm of the chair,
and see it both out the corner of my eye and from across the room
simultaneously. Finally, I come to grips with the fact: my brain is
getting direct data from a video camera hooked up to a computer. The
technician asks me again if I'm ready. I've long ago memorized the
sequence of the procedure. I hear another switch flip and a loud
humming, and slowly my vision of the computer in front of me fades.
However, I can still clearly see my body. Nothing has changed, but that
the part of my brain which receives data from my eyes has temporarily
stopped working. Luckily, I am hooked up to a camera, which replaces the
function of the eyes, and a computer, which now hosts the software
needed to interface between eyes and cognitive and reflexive areas of
the brain. The technician inserts another wire into the top left of my
skull. Now I feel as if I have a third arm. I move the arm on my body,
and it responds as it should. Then I move this new appendage, and see
something wave in from of my new field of vision. It is a robot arm,
identical in shape and construction to my natural arm. When the
inhibitor is turned on, it prevents my brain from sending signals to my
muscles, and I am no longer able to control my fleshy right arm. But I
can still quite easily control both my left arm and the robot arm to the
right of my field of vision. This continues — left arm, left leg, right
leg, diaphragm — until every part of my brain has been mapped,
transferred, and inhibited. Now comes the final moment. Up to now, I
have been physically connected to all of my wetware. I could have, at a
moment's notice, regained control of any part of my brain. But now the
technician removes the first wire he inserted. My visual cortex is
completely dormant and no longer connected to the computer, yet I can
still see my body — I am still connected to my body — and I can still
feel every part of it as if I'm still in my brain.
And so on. In this way, there would be no point at which I could feel
“myself” “die” or disappear. I would simply phase from one substrate to
another, and be awake and (at least nominally) in control the entire
time. Of course, none of this might ever be possible, but it’s not
completely unreasonable.
Showing posts with label technology. Show all posts
Showing posts with label technology. Show all posts
Tuesday, August 7, 2012
Monday, April 23, 2012
On the Fundamental Interconnectedness of Science
Scientifically illiterate people tend to make wild claims about new discoveries after reading third-hand articles on CNN.com or in the Fortean Times. Creationists have been doing this with every tiny bit of contradictory biological evidence since Darwin. New Agers do it with quantum mechanics. Regular people do it with tiny advances in technology or overblown predictions from hack journalists.
A stark example was the big scare at CERN over faster-than-light neutrinos.When the results were publicly announced last year, a chorus arose in indignation of the clearly malicious lie the academy had been spreading for the last century, that the speed of light was a fundamental speed limit in our universe, and all the physical effects this implied. Short-sighted people, believing themselves, at their Dunning-Krugeriest, to be incredibly farsighted, proclaimed a new age of physical theories and hyperdrive travel. They scoffed at the closed-mindedness of science in making such outrageously doctrinaire claims as that there were limits on the movement of objects in space! There were certainly no limits to the human spirit! ...or some such.
What these breathless blowhards don't understand is that no one seriously considered the possibility that said neutrinos were traveling faster than light. A few theoretical physicists came up with some pet models that might allow a special variety of neutrino to do something weird, but that's because they have nothing better to do. The uproar in the physics community was not about the possibility of faster-than-light travel (many people make claims about discovering such things all the time), but rather about how a huge, extremely carefully set up, and thoroughly verified experiment could produce such results! What sorts of error could be the cause, and could that error populate other results in other experiments? As it turns out, it was a loose fiber optic cable, a simple human error, but one incredibly hard to catch on practical grounds. Nothing was traveling faster than light.
Here is the salient point, however: all of those people hailing the new age of faster-than-light physics failed to understand that if it were possible for something to travel faster than light, the universe would not look the way it in fact does. Distant galaxies would not appear as they do. Our computers would not work how we expect them to. Science is an intricate machine: one cannot simply remove a component and expect the thing to keep on working.
Creationists do the same thing. By claiming on the one hand that evolution does not occur, or that the Earth has only existed for six or ten thousand years, and on the other hand continuing to drive cars and use cell phones and watch television, they fail to understand that the same natural phenomenon that allows new medical treatments to be developed allows dinosaurs to evolve into ducks. They don't understand that the science which tells us how old early hominid remains are is the same which allowed us to build an atomic bomb. And of course they do not deny the existence of genetic therapy or nuclear weapons. But they do deny evolution. (Of course, creationists do not really hold a principled position at all — they pick and choose their beliefs based on authority rather than reason.)
New discoveries in science certainly can obviate old theories. The connection between germs and diseases completely destroyed older theories of disease. But not all discoveries are like that. While it's certainly true that Einstein's general theory of relativity was a vast improvement upon Newtonian mechanics, it was not a wholesale usurpation of it. For measurements below the astronomical scale, Newton's laws were and are still perfectly valid. That is, the level of description at which they work, while inadequate for measuring the orbit of Mercury, is just fine for balls and ramps, or even bridges and skyscrapers.
The mistake many people make, though, is in seeing the universe in the opposite way. They assume Newtonian mechanics is more fundamental, because it is more intuitive. They think that their ingenious "racecar headlight on a moving train" thought experiment demonstrates that you can travel faster than the speed of light. But they still use the GPS on their phone, which would not need careful timing corrections if relativity didn't work as Einstein described.
When science throws something we don't like at us, like quantum indeterminism, special relativity, or Darwinian evolution, we cannot simply choose to ignore it while accepting all the parts we don't dislike. All the various scientific fields and theories are deeply interconnected and interdependent. This does not entail that they are all correct, of course, but one cannot simply decide that something "must be wrong" without independent, scientific reasons for thinking so. Doing that rather puts you in the position, to quote Tom Lehrer, of "a Christian Scientist with appendicitis."
A stark example was the big scare at CERN over faster-than-light neutrinos.When the results were publicly announced last year, a chorus arose in indignation of the clearly malicious lie the academy had been spreading for the last century, that the speed of light was a fundamental speed limit in our universe, and all the physical effects this implied. Short-sighted people, believing themselves, at their Dunning-Krugeriest, to be incredibly farsighted, proclaimed a new age of physical theories and hyperdrive travel. They scoffed at the closed-mindedness of science in making such outrageously doctrinaire claims as that there were limits on the movement of objects in space! There were certainly no limits to the human spirit! ...or some such.
What these breathless blowhards don't understand is that no one seriously considered the possibility that said neutrinos were traveling faster than light. A few theoretical physicists came up with some pet models that might allow a special variety of neutrino to do something weird, but that's because they have nothing better to do. The uproar in the physics community was not about the possibility of faster-than-light travel (many people make claims about discovering such things all the time), but rather about how a huge, extremely carefully set up, and thoroughly verified experiment could produce such results! What sorts of error could be the cause, and could that error populate other results in other experiments? As it turns out, it was a loose fiber optic cable, a simple human error, but one incredibly hard to catch on practical grounds. Nothing was traveling faster than light.
Here is the salient point, however: all of those people hailing the new age of faster-than-light physics failed to understand that if it were possible for something to travel faster than light, the universe would not look the way it in fact does. Distant galaxies would not appear as they do. Our computers would not work how we expect them to. Science is an intricate machine: one cannot simply remove a component and expect the thing to keep on working.
Creationists do the same thing. By claiming on the one hand that evolution does not occur, or that the Earth has only existed for six or ten thousand years, and on the other hand continuing to drive cars and use cell phones and watch television, they fail to understand that the same natural phenomenon that allows new medical treatments to be developed allows dinosaurs to evolve into ducks. They don't understand that the science which tells us how old early hominid remains are is the same which allowed us to build an atomic bomb. And of course they do not deny the existence of genetic therapy or nuclear weapons. But they do deny evolution. (Of course, creationists do not really hold a principled position at all — they pick and choose their beliefs based on authority rather than reason.)
New discoveries in science certainly can obviate old theories. The connection between germs and diseases completely destroyed older theories of disease. But not all discoveries are like that. While it's certainly true that Einstein's general theory of relativity was a vast improvement upon Newtonian mechanics, it was not a wholesale usurpation of it. For measurements below the astronomical scale, Newton's laws were and are still perfectly valid. That is, the level of description at which they work, while inadequate for measuring the orbit of Mercury, is just fine for balls and ramps, or even bridges and skyscrapers.
The mistake many people make, though, is in seeing the universe in the opposite way. They assume Newtonian mechanics is more fundamental, because it is more intuitive. They think that their ingenious "racecar headlight on a moving train" thought experiment demonstrates that you can travel faster than the speed of light. But they still use the GPS on their phone, which would not need careful timing corrections if relativity didn't work as Einstein described.
When science throws something we don't like at us, like quantum indeterminism, special relativity, or Darwinian evolution, we cannot simply choose to ignore it while accepting all the parts we don't dislike. All the various scientific fields and theories are deeply interconnected and interdependent. This does not entail that they are all correct, of course, but one cannot simply decide that something "must be wrong" without independent, scientific reasons for thinking so. Doing that rather puts you in the position, to quote Tom Lehrer, of "a Christian Scientist with appendicitis."
Friday, April 20, 2012
Predicting the Future (and Other Abilities We Don't Have): Part 1
Humans are good at lots of things. This series of two posts is about a number of abilities that are not among those things. Part 1 discusses the fashionable tendency to make guesses about the future course of society and then heavily imply (without usually stating outright) that these guesses constitute accurate predictions. Part 2 discusses the trouble we tend to have in viewing ourselves in a historical context. This makes it easy for us to believe that we happen to live in revolutionary times, or that none of the old rules apply. These types of charlatanism can have far reaching consequences, as it turns out.
Part 1: Extrapolation is an Art, not a Science
One of the ways to get people to pay attention to your predictions is by preaching the good news: eternal life. Ray Kurzweil has made a number of predictions about the bright future that technological growth will bring us, with this being by far the most notorious. Although his version of immortality, uploading ourselves onto computers, differs somewhat from the standard Christian view, one can't help but notice the religious flavor of this prediction.
Kurzweil's other predictions for this century include, yes, flying cars, but also reverse-engineering the human brain, nearly perfect simulations of reality (for our digital selves to live in), and, crucially, an AI that is more intelligent in every way than all humans combined. He has freed himself from any responsibility to explain how these things will be accomplished. Nobody has the slightest idea how to do the interesting ones.
I will defer the actual technical explanation of why these are truly goofy predictions to authors who have basically handled it: Steven Pinker, Douglas Hofstadter, PZ Myers, and many others have noted how technology and scientific discovery don't progress in the way Kurzweil has claimed. Instead, I want to draw attention to the fact that these attempts to predict the future are actually a very human tendency.
In the early 1960's, progress in programming machines to do certain tasks (like proving theorems), gave researchers supreme confidence that essentially human-like A.I. would be a solved problem within 20 years. They should have said that at this rate, it would be done. What actually happened was that computers became more and more sophisticated but left AI behind: the problems they were doing were just much harder than they had anticipated. Even relatively simple tasks like constructing grammatical sentences proved to be far out of their grasp. Now, the most successful language tools largely involve throwing our technical understanding of language out the window and using probabilistic models.
Economies are not spared from erroneous predictions about the future. Kurzweil and others jumped on the tech-boom bandwagon, claiming in 1998 that the boom would last through 2009, bringing untold wealth to all. Maybe they should have been reading Hyman Minsky instead of Marvin Minsky.
Enough about the good news.
The other way to get people to pay attention to your predictions is by telling them the bad news: social breakdown the end of the world. Overpopulation is an issue along these lines that receives attention that is disproportionate to the seriousness of the claims made by its scare tacticians. Among these claims is the belief that we are imminently reaching the carrying capacity of the Earth, at which point starvation, crowding, and wars over scarce resources will tear human civilization to pieces.
This hypothesis relies on progress not happening, the opposite of the singularitarians' reliance. But the very same question can be asked of both: how do you know? This is where it becomes apparent that extrapolating patterns is an art for the Kurzweils of the world. If you extrapolate one variable, you get intelligent machines. If you extrapolate another, you get the end of the world. But if you extrapolate yet another, say the total fertility rate (TFR), it doesn't look so scary. Defined as the average expected number of children born per woman, the world's TFR has been steadily declining in the post-war period, from almost five in 1950 to almost 2.5 today. As it approaches two, the world population approaches equilibrium.
Phony overpopulation scares are common in the history of anglophone countries, from Thomas Malthus to American anxiety over the "yellow peril" around the turn of the century (see Jack London's The Unparalleled Invasion for a rosy portrait of the future). Wealthy people and business interests are often the biggest proponents of the theory that population growth is the largest problem facing the world. Conveniently, it's one of the only major global issues that isn't their responsibility. In reality, the only reliable way to lower growth rates is to facilitate the economic growth of poor countries to the point where people there have a decent standard of living.
The danger in blowing the perils of overpopulation out of proportion is that it leads people to prioritize population control above reproductive rights and, more generally, morality. If it really is that serious, then we have carte blanche to do whatever is necessary. The bottom line is that, despite the very real possibility of overpopulation becoming an issue, there is no reason to think it is serious or imminent enough to change what our goals would be, were it not imminent. Our immediate task is still figuring out how to get communities to lift themselves out of poverty while handling climate change and other real crises.
We have a predisposition to weigh the likelihood of possible futures, either good or bad, based on how exciting or terrifying they are instead of how probable they are. Anyone interested in solving problems should be aware of this bias.
Part 2 covers a second, related bias that people have: the impression that the times we currently live in offer wider and more revolutionary possibilities than existed in the past. This impression, created by the fact that we live now, not in the past, is the source of huge blunders and the general abandonment of reason.
Part 1: Extrapolation is an Art, not a Science
One of the ways to get people to pay attention to your predictions is by preaching the good news: eternal life. Ray Kurzweil has made a number of predictions about the bright future that technological growth will bring us, with this being by far the most notorious. Although his version of immortality, uploading ourselves onto computers, differs somewhat from the standard Christian view, one can't help but notice the religious flavor of this prediction.
Kurzweil's other predictions for this century include, yes, flying cars, but also reverse-engineering the human brain, nearly perfect simulations of reality (for our digital selves to live in), and, crucially, an AI that is more intelligent in every way than all humans combined. He has freed himself from any responsibility to explain how these things will be accomplished. Nobody has the slightest idea how to do the interesting ones.
I will defer the actual technical explanation of why these are truly goofy predictions to authors who have basically handled it: Steven Pinker, Douglas Hofstadter, PZ Myers, and many others have noted how technology and scientific discovery don't progress in the way Kurzweil has claimed. Instead, I want to draw attention to the fact that these attempts to predict the future are actually a very human tendency.
In the early 1960's, progress in programming machines to do certain tasks (like proving theorems), gave researchers supreme confidence that essentially human-like A.I. would be a solved problem within 20 years. They should have said that at this rate, it would be done. What actually happened was that computers became more and more sophisticated but left AI behind: the problems they were doing were just much harder than they had anticipated. Even relatively simple tasks like constructing grammatical sentences proved to be far out of their grasp. Now, the most successful language tools largely involve throwing our technical understanding of language out the window and using probabilistic models.
Economies are not spared from erroneous predictions about the future. Kurzweil and others jumped on the tech-boom bandwagon, claiming in 1998 that the boom would last through 2009, bringing untold wealth to all. Maybe they should have been reading Hyman Minsky instead of Marvin Minsky.
Enough about the good news.
The other way to get people to pay attention to your predictions is by telling them the bad news: social breakdown the end of the world. Overpopulation is an issue along these lines that receives attention that is disproportionate to the seriousness of the claims made by its scare tacticians. Among these claims is the belief that we are imminently reaching the carrying capacity of the Earth, at which point starvation, crowding, and wars over scarce resources will tear human civilization to pieces.
This hypothesis relies on progress not happening, the opposite of the singularitarians' reliance. But the very same question can be asked of both: how do you know? This is where it becomes apparent that extrapolating patterns is an art for the Kurzweils of the world. If you extrapolate one variable, you get intelligent machines. If you extrapolate another, you get the end of the world. But if you extrapolate yet another, say the total fertility rate (TFR), it doesn't look so scary. Defined as the average expected number of children born per woman, the world's TFR has been steadily declining in the post-war period, from almost five in 1950 to almost 2.5 today. As it approaches two, the world population approaches equilibrium.
Phony overpopulation scares are common in the history of anglophone countries, from Thomas Malthus to American anxiety over the "yellow peril" around the turn of the century (see Jack London's The Unparalleled Invasion for a rosy portrait of the future). Wealthy people and business interests are often the biggest proponents of the theory that population growth is the largest problem facing the world. Conveniently, it's one of the only major global issues that isn't their responsibility. In reality, the only reliable way to lower growth rates is to facilitate the economic growth of poor countries to the point where people there have a decent standard of living.
The danger in blowing the perils of overpopulation out of proportion is that it leads people to prioritize population control above reproductive rights and, more generally, morality. If it really is that serious, then we have carte blanche to do whatever is necessary. The bottom line is that, despite the very real possibility of overpopulation becoming an issue, there is no reason to think it is serious or imminent enough to change what our goals would be, were it not imminent. Our immediate task is still figuring out how to get communities to lift themselves out of poverty while handling climate change and other real crises.
We have a predisposition to weigh the likelihood of possible futures, either good or bad, based on how exciting or terrifying they are instead of how probable they are. Anyone interested in solving problems should be aware of this bias.
Part 2 covers a second, related bias that people have: the impression that the times we currently live in offer wider and more revolutionary possibilities than existed in the past. This impression, created by the fact that we live now, not in the past, is the source of huge blunders and the general abandonment of reason.
Tuesday, April 17, 2012
My Solution to the Fermi Paradox
I think that the most likely solution to the Fermi Paradox is that, while life is exceedingly common in the universe, intelligent life is incredibly rare. In the four and a half billion year lifespan of this planet, life has existed on it from almost the very first moments. However, not until the Cambrian explosion about 530 million years ago did complex multicellular life exist. That means that for nearly four billion years, and starting from nine billion years after the birth of the universe, Earth contained nothing but single-celled organisms and colonies of such. And it is not until about 2 million years ago, 0.04% of the history of life on Earth, that the first technological intelligence emerged. And even that was simply monkeys hitting rocks against each other in a clever way! Anything more complicated than a stone arrowhead was invented in the last ten thousand years!
And let's look at how unlikely it is that humans (or any other hominid) ever even achieved technology. We had access to wheat, barley, and rice, easily domesticable plants that produced high yields and had good nutritional content. We had access to large animals with very particular internal dominance hierarchies which were not so recently evolved alongside us to attack us on sight, but not so distantly separate from us to be completely unwary at the sight of hunters with spears. (Here by "we" I am referring to any subset of humans who had such access — Jared Diamond goes into great detail as to who in fact had access to what.) We had access to workable stone, copious woodlands, and various ore deposits. We had an abundance of fresh water on a planet with an atmosphere suitable for lighting fires. Our luck in the development of our culture and eventual civilization was astounding. We were never subject to an extinction-level impact or eruption (although it seems that we came damn close).
I think that such luck is not only astounding, but is in fact astronomical. While life seems to have no trouble at all finding a place on a planet like the Earth (and perhaps on many other types of planets as well), technological civilization seems like and absolutely ludicrously unlikely event. It has happened exactly once in four and a half billion years (for 0.0002% of that time), or in 530 million years in which complex life has existed on Earth (or 0.0019% of that time). So I would imagine that life is in fact very common in the universe, although almost exclusively in the form of single-celled creatures living on rocks and in oceans. Very, very, very rarely one would find a planet with some sort of multicellular life on it — simple plant-like creatures, or molds of some sort. And once in an unimaginably huge while, one might expect to find a planet where technologically intelligent life once existed. Finding a planet where technologically intelligent life exists concurrently with us seems depressingly close to a fantasy.
[Edit: My percentages were two orders of magnitude off! They were simple ratios, not percentages. Thanks to Scott for pointing this out.]
And let's look at how unlikely it is that humans (or any other hominid) ever even achieved technology. We had access to wheat, barley, and rice, easily domesticable plants that produced high yields and had good nutritional content. We had access to large animals with very particular internal dominance hierarchies which were not so recently evolved alongside us to attack us on sight, but not so distantly separate from us to be completely unwary at the sight of hunters with spears. (Here by "we" I am referring to any subset of humans who had such access — Jared Diamond goes into great detail as to who in fact had access to what.) We had access to workable stone, copious woodlands, and various ore deposits. We had an abundance of fresh water on a planet with an atmosphere suitable for lighting fires. Our luck in the development of our culture and eventual civilization was astounding. We were never subject to an extinction-level impact or eruption (although it seems that we came damn close).
I think that such luck is not only astounding, but is in fact astronomical. While life seems to have no trouble at all finding a place on a planet like the Earth (and perhaps on many other types of planets as well), technological civilization seems like and absolutely ludicrously unlikely event. It has happened exactly once in four and a half billion years (for 0.0002% of that time), or in 530 million years in which complex life has existed on Earth (or 0.0019% of that time). So I would imagine that life is in fact very common in the universe, although almost exclusively in the form of single-celled creatures living on rocks and in oceans. Very, very, very rarely one would find a planet with some sort of multicellular life on it — simple plant-like creatures, or molds of some sort. And once in an unimaginably huge while, one might expect to find a planet where technologically intelligent life once existed. Finding a planet where technologically intelligent life exists concurrently with us seems depressingly close to a fantasy.
[Edit: My percentages were two orders of magnitude off! They were simple ratios, not percentages. Thanks to Scott for pointing this out.]
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