Thank you, (That's not a bad policy, either.) Your essay has an inviting, exploratory style that's never dull. You argue for the need to expand into the galaxy. By laying down an incisive examination of the problems and solutions to that end, you build up a proposal for an economically sustained, virtual transhumanism as the means - a brave thesis, if not a rash one.

I have a few questions, please. First about the Lagrangians who export energy and (perhaps) moon minerals to earth. "Eventually", you claim, "they could spread throughout the solar system." (p. 2) In spreading just to the vicinity of Mars, what economic basis would they obtain for this venture that the unsustainable Mars colonies (pp. 1-2) could not obtain? - Mike

That's a trick question, right? :) The natural front of expansion for O'Neill-style settlements would be into the asteroid belt, not Mars. Off the top of my head, the businesses I can think of would be mining (with related refining and manufacturing) and real estate.

The asteroid belt is like a planet which has already been ground down by a giant mining machine and laid out for us to pick and choose from with minimal mechanical effort, and without a gravity well to lift out the ore from. Initially, miners will operate from Earth, but a look at this is enough to see why they will eventually want to move out. Sooner or later, any Mars settlers would also have to mine for their own needs, but they would have to work much harder to find and extract what they want, and they would have to pay the gravity well tax in order to export anything.

Real estate would follow in the miner's trail and work pretty much as usual: a developer would build a habitat and then sell or rent units. The buyers would be very different from the rugged pioneer types you would expect to see in a Mars settlement; think "Elysium", or luxury sea residence / cruise ship like The World. People would move there to live better, not worse. I wouldn't be interested in a lot on Mars, but if I had the money, I wouldn't disdain living on (or rather in) something like Island One.

If I really must think of a way to drag Mars into this, it would be because of its water. I suppose, without any attempt at actual analysis, that it might make sense to "mine" Mars' polar caps for ice and blast it to habitats in the asteroid belt. Going around the sun a little faster than its customers, it would be like the solar system's own ice van. Mars colonists would probably hate the idea with a vengeance.

Good, that makes sense. Now about "the Matrix", a new concept for me (no tricks, just learning by asking). The core of the plan is to sell entrance tickets to a semi-virtual, transhuman "utopia" of space colonization (S), then use the revenue to finance S in reality? Do I understand? - Mike

The Matrix would be central to the real thing.

Let me tell you about my body. It is optimized to run around on savannas, hunt mastodons and defend home caves from sabre-tooth cats and bears. If it were designed for the way I actually use it, it would consist of a life support system dimensioned to serve just the brain plus a standardized interface for connecting to external devices (computers, actuators etc). It would consume far less energy, occupy a smaller volume and weigh a small fraction of the stone-age version, and would therefore cost much less to carry into space and keep alive there.

If I had such a body, I would be the most cost-efficient astronaut ever, except for one small detail: I would flunk every psychological test, because my mind is of the stone-age variety too and wouldn't be happy living in that kind of body.

We could wait a few million years for evolution to fix that, but the Matrix promises a quicker route: a simulated body and environment tailored to our stone-age tastes. Instead of a city-sized physical structure for stone-age bodies, modern-bodied astronauts would have a server running a virtual world to keep them happy. The experience would be better and the cost lower. Low enough, I hope, to completely change the economics of space settlement and exploration.

Hi Tommy,

yes it is horrific and not the way I would like humanity to go. Having said that it was a very novel vision of the future and an enjoyable read.Very well thought out. I like that you have discussed problems with the scenarios as well as the advantages.

Good luck, Georgina

Well, you know: "Adapt to the environment. Do not cause more problems than you solve. (Bend like the willow.)" ;)

You have Kevin Costner's gilled descendants swimming around sub-aquatic sanctuaries, I have The Matrix... in Space! Maybe not all that different.

Thanks, and good luck to you too.

Sure, I understand that much. But the economics is central to your thesis, so I want to understand that, too: 1) we sell entrance tickets to a "simulated body and environment" suitable for astronauts; then 2) we use the revenue to finance exploration (largely by these semi-transhuman astronauts) of the real, non-simulatated environment of space. Is that correct? - Mike

That would be part of the mixed business model which I mention on page 3. All the commercial activities contemplated for O'Neill-style space habitats would still be on the plate. The mechanical work was always going to be done by machines anyway; it's not like suited-up 1.0 astronauts would have been assembling habitats by hand or swinging pick-axes on asteroids. They would have been controlling robotic arms and excavators. Same thing with 2.0s, just much cheaper.

I like your essay, and I like your writing. I also like your 2012 FGXi essay on physics, and I like your comments on Michael Allen's paper.

Michael offered me his deal where each rates the other fairly. Would you want to make that deal with me too? I am more interested in your comments on my essay than in your rating, since I don't expect to win this contest. I tried for coach-before-the-big-game inspiration of readers, but it is hard to do that when the odds of individual effectuality seem low. I sense that inspiration should be possible here, so I want to keep optimizing my presentation. I think your feedback would help. I am asking others too. If the feedback and folk's interest warrant, we could all be coauthors. Maybe we could inspire others to save the world.

My one quibble with your paper is Humanity 3 as a goal. My feeling is maybe. We have personal "I think, therefore I am" evidence that our current biological brain configuration has something like a conscious soul. IBM's Watson is smarter than humans on tricky jeopardy questions, but is it conscious? Could a future model be designed to be conscious? I conjecture that we can never be sure of the answer, but I can imagine experiments that would be suggestive of an answer. One is a Turing/Freud test, psychoanalyzing an AI. Another is an implementation of our mind that shifts back and forth between biological and electronic, so we can compare and critique the feeling of both (if this is possible). We can never be sure, but given continued progress we will be forced to decide on what to do about the issue, since "not to decide is to decide not to decide." My quibble is that I think it is too soon to set Humanity 3 as a goal. I think we should wait for the results of those kinds of experiments and have that kind of experience. If we are forced to fudge the decision, we should at least do the best we can. We also have to deal with the "take over the world" problem, which also exists with current humans (like Hitler), and the Yudkowsky "foom" problem, along with his questionably implementable "proof of friendliness" solution. I think we will have to fudge that one too. I agree with Shirazi that Humanity 3 has the blow-us-away expansiveness of Asimov's "Last Question." I wouldn't want to tell you not to invoke that. I would just like to see a caveat or two. Your benevolent matrix doesn't raise these questions for me since you propose using biological human brains. If you are going for inspiration, you should market test to see if it raises those problems for others. I disagree with Socrates, I think rhetoric is appropriate when the goal is saving the world. It won't work unless we inspire others to get on board.

    Thank you for the compliments, and apologies for doing my usual "say what happens to pop into my head" thing regarding your presentation.

    Regarding Humanity 3.0, note the question mark in that section's title, and the multiple conditionals and branches in that part of the scenario. If I had to bet on whether human-like intelligence and consciousness are possible on non-organic substrates, I would say yes, for lack of any convincing counterargument. But something may yet come out of left field.

    Your suggestion of a mind which "shifts back and forth between biological and electronic" is curiously reminiscent of something an old friend suggested a few days ago, but I wouldn't know how to turn off the organic part and then back on (the main problem being the second step...). My own preferred scenario would be gradual substitution of organic circuits with artificial ones without ever interrupting or duplicating consciousness.

    If Humans 3.0 are possible, they would still not be a final goal, at least not in the form described. But I wouldn't worry about them taking over our world, for the same reason that I rarely get into fights with birds over who gets to eat a particularly juicy worm.

    Essentially, I don't expect Humans 1.0 to get much beyond Earth, or Humans 2.0 to get much beyond the solar system. Maybe the nearest stars, if they really push it. But a Human 3.0 could realistically aspire to go anywhere in the galaxy and beyond. Why bother with the very special niches required by organic life forms, if you can go to the galactic center and feast on energy densities which would kill them instantly? Let them eat their worms.

    If I must worry about takeovers, I would worry about Humans 2.0. They will still need relatively scarce water and carbon compounds, just like us, and they will be nearby. The day could come when they raise the question why Earth's inhabitants insist on making such poor use of their most valuable natural resources. Some 98% of my body mass is pure animal. If we insist on staying like this, we may eventually have to produce credible deterrence against our neighbours in space.

    As for market testing, I think we are seeing the results already, at least as far as FQXi is concerned: a nanny-state dystopia might be acceptable, but dropping the Cro-Magnon body is so completely out of the question that it doesn't even deserve to be rated. :D

    Of course, I just had to post my reply in the wrong place. Please see post below yours. Sorry. :/

    Tommy,

    When I spotted you name on the list I smiled. Is it two years you've been away? You haven't lost your style and sure didn't disappoint. From wading through some essays begging them to end, even baling out, yours ended too soon, at once relevant, insightful, irreverend and a bunch of other adjectives.

    But lets talk future. I think I have a way to get there quicker, using a quantum leap in science (in my essay). From the same foundations, as an astronomophysicist, a paper on cyclic galaxy and cosmic evolution finds yes, we are indeed doomed, at least in our current cycle, but there's a possible escape hatch, and anyway we just keep on coming back forever re-ionized (a bit like the Enterprise transported but AGN powered).

    Ok 10 Bn times we may be rocks or gas, but forever is a long time so it's inevitable our brain cells eventually form part of some other sentient beings brain. Eventually we'll be everyone and everything, just one at a time. And if being dead is like as sleeping, we wont see the time pass so it's be immediate. Of course we may not remember much...

    Fantasy? Ok. Perhaps. But there's an extraordinary amount od f evidence (check out the likeness between a quasar jet outflow and the cosmic 'axis of evil' flow, and the dynamics, helicity etc compared to the CMB anisotropies).

    The 'escape hatch' is to jump a local outflow, then the big one, because some outlying 'halo' matter doesn't get accreted and recycled (7 galactic anomalies resolved right there!). So we may have a choice. Keep this garb for the next ride, or jump in the carousel to see where we end up next. Crazy? Perhaps we have to be! But the science is dead serious.

    Now as you've been completely ignored here I'm honoured to have the chance to kick you off with a bang. Of course your first score can't be a 10, but an honest score puts you in the lead as the trolls have struck and will hit you too. I could wait...but lets' get you going. Now our first task is to unify physics so we can get out of this 100 year rut. The science is no problem (see essay), but are our brains well enough evolved to recognise it. Many not so far it seems. Cest la vie. Tell me what you think.

    Best wishes

    Peter

      You might be interested in my essay which discusses some related matters. I illustrate possible limits to these types of future ideas.

      If humanity does push into outer space then it requires some sort of socio-economic reason. I think the most likely economic purpose manned space flight might serve in the near future is with the deployment and maintenance of solar power satellites. Intermittent space flights might turn into longer term visits with space station habitats. Eventually this might give way to the next big step which would be asteroid mining. That might pave the way for converting asteroid material into habitats.

      LC

        Hi again. Yes, almost two years - that seems to be the average time I end up hiding from the lynch mobs when I post something. :D

        It is nice to be welcomed back, and I appreciate the sentiment. Thank you.

        That said, I hope that in future, we will all keep the way we vote to ourselves. The vast majority of votes are cast anonymously, and making a subset of them public invites all kinds of trouble: suspicions of mutually back-scratching cliques, perceived pressure to return the favour, all the usual political nonsense which our species so excels at and which I really prefer not to partake in.

        My own strategy this year has been pretty much the opposite of the politically convenient one. If I really like a paper, I am likely to just give it a high score and move on without saying anything (what is there to discuss if we already agree?); if I disagree with or am puzzled by something in it, I may engage in a discussion before (maybe) rating it. And since I am less stressed out this time, I have been doing a lot more of it than back in 2012, trying to look at as much as I can, so I guess the lynch mob will be larger...

        You wonder if our brains are well enough evolved to recognize... well, here I run into trouble: my brain is clearly not evolved enough to recognize exactly what it is supposed to recognize. I honestly don't understand what the 'escape hatch' is which you refer to. :(

        The best response I can offer is a meta-one (which is guaranteed to make me even less popular with the FQXi crowd, if that is even possible): maybe we really should take a step back and get our priorities straight. I understand that you have a strong belief in the potential benefit for humanity of further advances in fundamental physics. I am less optimistic on that front. While I can not rule out big surprises (after all, we don't know) it seems to me that the "rut" which you speak of is a consequence of tremendous success; the theories we already have work very, very well, over a very large range of scales. The search for significant deviations from prediction has therefore been pushed to regions in parameter space very far removed from those relevant to current or plausibly near-future technological applications. Turn that statement around, and it says that further advances in fundamental physics are unlikely to have a significant technological impact, at least in the near future.

        You may counter that there are logical problems and inconsistencies in our theoretical edifice, and I would agree, but you would need to point out areas where those conceptual problems become of practical importance in order to sway me.

        Now, if it is true that humanity faces one or more existential crises in the near term, and if it is true that further advances in fundamental physics are unlikely to be relevant to the solution of those crises, then the sensible course of action would be to focus on less esoteric goals more likely to help us survive. Cheap access to the vast resources in space would be one. Getting smarter might be another (here finally get back to your train of thought). If larger brains, artificially augmented ones, or wholly artificial intelligences superior to those we have now are on the horizon, the best strategy may be concentrate on making them a reality as soon as possible, and then let them worry about the really hard questions.

        I agree wholeheartedly that space colonization will only happen if it makes economic sense, not because of superficial enthusiasm or political dictates. Satellite solar power is a big opportunity, and it was a big part of O'Neill's plans, but currently even the most advanced plans put it 25 years into the future. NASA's Asteroid Redirect Mission looks set to happen sooner, and by then Planetary Resources should already be flying commercial missions. So I would put my money on mining first, solar later.

        Tommy,

        I suppose to fully understand the 'escape hatch you may have to read the galaxy recyling paper, but if you know what quasar outflows and jets are you're half way there, we just hop on for the ride. Only today one star was spotted leaving the Milky Way on the flow at a million mph. scitechdaily.com.

        I don't think we have any datum at all to measure 'successful' as all we know is all we know. We may be abject failures for all we know and 'should' be travelling the galaxy already. I can easily point out dozens of major anomalies in astronomy alone and scores of areas where we're suffering from failure of scientific understanding;

        We're still having to use fossil fuels and face a heritage of thousands of rusty wind farm spikes in out sea, batteries are 50 times as big and heavy as they should be, thousands are dying of cancer who shouldn't, and tens of thousands suffering unnecessarily from other illnesses, and I won't even mention RSI as voice recognition in rubbish, teaching, public transport.. I could go on ad infinitum, all due to our belief that our theories are exceptionally good so why bother to advance them!

        It will almost certainly be fatal, eventually. Martin Rees agrees we're complacent with his 'within a century' prediction. The moment the planet is destroyed and we're all killed I'll point you directly at which of the many failings caused it! In the meantime I think I may try to advance understanding even if it's uphill as most think we're brilliant already. Do you?

        Best wishes

        Peter

        Thank you for clarifying what you mean by 'escape hatch'. How do you propose to safely "hop on" an object going by at a million mph?

        I think we do have a way to determine if a scientific theory is successful: check if it produces correct predictions. The examples of undesirable conditions which you mention are all about technology and/or policy. To the extent that they are failures, they are failures in the application of scientific theories, not failures of scientific theories.

        As for us being brilliant, I wouldn't be suggesting that we concentrate on creating better minds than ours if I were impressed with the current level of human intelligence.

        That makes sense. Your essay improves as I read your comments, here and elsewhere. It's now one of the most interesting I've read. But I begin to see a tension between the virtual and real worlds. "Life in the [virtual world of] the Matrix could be literally anything you imagine." (p. 4)

        Except it cannot be authentic. The virtual cannot be real. Priceless reality can only be attained by escaping the virtual sham. You do speak of Matrix-ians experiencing reality (pp. 3-4). Your thesis depends on them successfully exploring and colonizing the real galaxy, then living in that reality (just as colonists always do, I would add). So why not offer (or sell) just that?

        After all, the facility to fantasize (where wanted) is already a part of reality. It comes with the territory. This goes without saying. But we wouldn't deliberately build the equivalent of opium dens (if that's not too strong a metaphor) into our colony ships, ports, towns, etc. - Mike

        Where do you draw the line between real and virtual? As I write this I am surrounded by a completely man-made environment, a building in a town, and I am focusing on a computer screen. It's all artificial. If I were experiencing the same environment in a computer simulation, I suppose you could claim that it is "even more artificial", but the distinction would make little sense to me. I would experiencing the same thing - or probably something more pleasant, since it would be so much easier to modify at my whim. I could be sitting on a sandy beach, dipping my toes in the ocean while dictating these words and watching them appear on a screen floating in front of me. Maybe throw in a nice sunset while I'm at it. :)

        The primary reason for "selling" the Matrix is, again, cost. Our big, bulky bodies are not built for space, they are terribly expensive to get out there and terribly expensive to keep alive. The immense difficulty of colonizing Mars or building O'Neill-style habitats all comes down to that. Get rid of the Cro-Magnon body and the cost problem is solved. Do it in a way which keeps the brain happy, and you'll find plenty of volunteers.

        The Matrix would not be an "opium den". It would be the house and the town. If I were in it now, enjoying the sunset over the ocean while dictating these words, I might decide to take a break from this task and check on progress in the physical world. At my command, the screen floating in front of me would expand and deepen to a box containing a 3D display produced by real stereo cameras. Flicking through multiple views from different locations, one might catch my attention. A new command would cause the box in front of me to expand further, taking over my entire field of view. Engaging motor control, my limbs would be mapped to the machine's actuators, and I would be fully immersed in the physical world. Maybe we'll call it Augmented Virtuality.

        Thanks for making me read it, it was better than I thought based on the abstract, and I had some fun with it.

        Regarding ratings, I rate essays which I have read and have a quantifiably strong opinion about, such that I do not feel bad about actually clicking "OK" in the confirmation dialog. Whether, and if so how, the author has or will rate my own scribbling is immaterial. Since I realize that some people are less principled than me, I try to make it easier for everybody to do the right thing by not disclosing which essays I rate, and how. (Yes, it's plain to see that there's a lot of horse-trading going on, and maybe if the prize were in the seven figures I'd be tempted to join. Or not.)