Magnus Vinding

Researcher @ Center for Reducing Suffering
1725 karmaJoined Copenhagen, Denmark
magnusvinding.com/

Bio

Working to reduce extreme suffering for all sentient beings.

Author of Suffering-Focused Ethics: Defense and Implications; Reasoned Politics; & Essays on Suffering-Focused Ethics.

Co-founder (with Tobias Baumann) of the Center for Reducing Suffering (CRS).

Ebooks available for free here and here.

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Topic contributions
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Thanks for letting me know. :) I wasn't aware that Smashwords required registration. The PDF is also available here.

On "cold computing": to clarify, the piece I linked to was not about aestivation / waiting. It was about using "cold computing" right away.

The comment from gwern lists some reasons that may speak against "cold computing" (in general) as playing a significant role in answering the Fermi question, but again, a question is how decisive those reasons are. Even if such reasons should lead us to think that "cold computing" plays no significant role with 95 percent confidence, it still seems worth avoiding the mistake of belief digitization: simply collapsing the complementary 5 percent down to 0.

In any case, the point about "cold computing" was merely a disjunctive possibility; the broader point about observer prevalence being unclear in 'grabby vs. quiet expansionist scenarios that include sims' does not rest on that particular possibility.

On simulations: I think it can make sense to set the simulation argument aside, at least provisionally, for a couple of reasons:

  1. The hypothesis that ancestor simulations (e.g. exact copies of your current conscious experience) are impossible to create seems like a plausible hypothesis that is worth exploring in its own right. (One can think that it is worth exploring even if one believes that faithful ancestor simulations are most likely possible.)
  2. Even if we grant that ancestor simulations are possible and trivially feasible, it still makes sense to explore the non-sim (or pre-sim) case, since that would presumably apply to the original simulators (if we assume an ancestor simulation picture in which our world at least roughly matches the original simulators' world). After all, if the anthropic argument holds for the OG simulators, then it would also hold for their ancestor simulations, assuming that those simulations really are ancestor simulations (somewhat analogously to a proof by induction). In this way, the 'non-sim case' seemingly has significant implications for what kind of simulation one should expect to be in (at least given the preceding assumptions).

If one includes sims, grabby civs would possibly but not necessarily have more observers (like us) than quiet expansionist civs. For example, the expected number of sims may be roughly the same, or even larger, in quiet expansionist scenarios that involve a deadline/shift (cf. sec. 4).[1] There's also the possibility that computation could be more efficient in quiet regimes (some have argued along these lines, though I'm by no means saying it's correct; I'm not sure if we currently understand physics well enough to make confident pronouncements either way).

But yes, the argument outlined in Section 3 was limited to "base reality" scenarios. Conditional on you not being in a simulation (e.g. if exact sims of your conscious experience are not possible), the anthropic argument in Section 3 suggests that you're in a quiet expansionist scenario, or in a quiet expansionist region within a mixed scenario. Conditional on you being in a simulation, it seems unclear.

  1. ^

    Why might it be even larger? Intuitively, one might think that grabby civs could start simulating earlier, since they don't have to wait and be quiet. But in the quiet expansionist model, expansionist civ origin dates would, in expectation, be significantly earlier, since we could be past the point where they've fully colonized. That is, in a grabby model, we'd now be pre-deadline, whereas we may be "post-deadline" in the quiet expansionist model — indeed, we most likely would be if the hard-steps model is correct. So the expansionist civs would be considerably older (they could even be much older) in the quiet expansionist vs. the grabby model. Thus, if we only look at the past, it's conceivable that quiet civs would be able to run more sims, even if they have considerably fewer sims per colonized volume (as they might make up for it by having far more time and volume).

    At any rate, given the apparent size of the cosmic future compared to the past, what matters most for the expected number of sims is hardly earliness (e.g. full cosmic expansion at 9 vs. 15 billion years), but arguably more something like future willingness and capacity to devote resources toward simulations. And when it comes to the willingness aspect, I can see some reasons to think that civs that started out as quiet expansionists up till our point (not necessarily staying that way) might have more incentive to simulate vs. grabby ones. For example, the strategic situation and motives in quiet expansionist scenarios would plausibly be more concerned with potential adversaries from elsewhere, and civs in such scenarios may thus be significantly more inclined to simulate the developmental trajectories of potential adversaries from elsewhere. Of course, this is speculative, but it serves to show that the picture with sims is complicated and the upshots are non-obvious.

The dark matter thought has crossed my mind too (and others have also speculated along those lines). Yet the fact that dark matter appears to have been present in the very early universe speaks strongly against it — at least when it comes to the stronger "be" conjecture, less so the weaker "contain" conjecture, which seems more plausible.

I see, thanks for clarifying.

In terms of potential tradeoffs between expansion speeds vs. spending resources on other things, it seems to me that one could argue in both directions regarding what the tradeoffs would ultimately favor. For example, spending resources on the creation of Dyson swarms/other clearly visible activity could presumably also divert resources away from maximally fast expansion. (There is also the complication of transmitting the resulting energy/resources to frontier scouts, who might be difficult to catch up with if they are at ~max speeds.)

By rough analogy, if a human army were to colonize a vast (initially) uninhabited territory at max speed, it seems plausible that the best way to do so is by having frontier scouts rush out there in a nimble fashion, not by devoting a lot of resources toward the creation of massive structures right away. (And if we consider factors beyond speed, perhaps not being clearly visible also has strategic advantages if we add uncertainty about whether the territory really is uninhabited — an uncertainty that would presumably be present to some extent in all realistic scenarios.)

Of course, one could likewise make analogies that point in the opposite direction, but my point is simply that it seems unclear, at least to me, whether these kinds of tradeoff considerations would overall favor "loud civ expansion speed > quiet civ expansion speed" (assuming that there are meaningful tradeoffs).

Besides, FWIW, it seems quite plausible to me that advanced civs would be able to expand at the maximum possible speed regardless of whether they opted to be loud or quiet (e.g. they might not be driven by star power, or their technology might otherwise be so advanced that these contrasting choices do not constrain them either way).

Thanks for your comment. :) One reason I didn't use the term "zoo hypothesis" is that I've seen it defined in rather different ways. Relatedly, I'm unsure what you mean by zoo vs. natural reserve hypotheses/scenarios. How are these different, as you use these terms? Another question is whether proportions of zoos vs. natural reserves on Earth can necessarily tell us much about "zoos" vs. "natural reserves" in a cosmic context.

Thanks for your comment, Jim. :)

Why would you expect grabby aliens to expand faster than quiet expansionist ones? I didn't readily find a reason in your linked piece, and I don't see why loud vs. quiet per se should influence expansion speeds; both could presumably approach the ultimate limit of what is physically possible?

Thanks for your comment and for the links :)

I don't think we have compelling video evidence at all

I'd agree that there's no compelling video evidence in the sense of it being remotely conclusive; it's possible that it's all mundane. But it seems to me that some of the footage is sufficiently puzzling/sufficiently unclear so as to be worthy of investigation, and that it provides some (further) reason to take this issue seriously. I agree that the reports, including reports involving radar evidence, are more noteworthy in terms of existing evidence.

Regarding the Aguadilla 2013 footage: perhaps this can be explained in conventional terms, but the aspiring analysts on metabunk seem to deny that the object went into the water and moved in the water, which seems wrong to me (of course, I acknowledge that it can be difficult to interpret and make sense of footage like this). A contrasting analysis, which also includes some highly anomalous radar evidence related to the event, can be found in Coumbe, 2022, ch. 5.

On the 2010 NYC footage: You could be right, it's possible that they are tethered balloons (although the patterns of movement don't seem to me consistent with that; e.g. even after the distances between the three objects increase, they still seem to move together in "fixed" unison). I also find it worth noting that Carolina Londono from New York comments the following (edit: I include this comment only as very weak evidence, of course, but FWIW, I'm fairly confident that I've identified this person and I'm trying to authenticate the comment; it's also worth noting that the comment is consistent with many other UFO reports, especially the part about the objects accelerating away near-instantaneously at the end):

I never leave comments on anything, ever. But I sought to find this video because I was there that day. I stood there for a very long time, and it really was an insane experience. For those saying these were “weather balloons” etc. Trust me, they weren’t. What this footage didn’t capture was that as it continued, more of these objects appeared, making all sorts of shapes, joining closer together then quickly going apart just hovering. All of the sudden, they disappeared in a way that I can only describe as cartoonish (like when the roadrunner would quickly run and disappear out of frame and only leave smoke). Like I said, it was insane.

I feel like this post gets it backwards and tries to find reasons why it’s reasonable to take UFOs seriously instead of arriving at that conclusion after careful deliberation.

The starting point of the post is that there are sufficient grounds for curiosity in light of existing reports/evidence. So to be clear, the initial and main motivation I present for taking UFOs seriously is that evidence, which I claim crosses the bar for "worthy of taking a closer look".

I admit that the connection UFO <-> extraterrestrial intelligence is more immediate than in other cases, but I think that ignores the priors.

FWIW, I've written some posts related to priors, outlining some reasons why I don't think they should be that low:

See also Hanson's post "On UFOs-As-Aliens Priors" and these comments by Jacob Cannell.

Also I'm very unconvinced by and skeptical about underlining the credibility of the "serious" UFO discourse by providing a list of prominent people engaged with it; I'm positive you can do similarly impressive lists for exactly the sort of discourse of paranormal phenomena you're trying to distinguish from.

This seems to misunderstand what I tried to do with that list. The point is not simply to list some prominent people, but rather to give examples of, and direct readers to, the content of the serious UFO discourse. That is, my hope is not that readers will just look at that list of people and find it impressive or so, but instead that readers will check out the content of what these people have said: the data they provide, how they reason, and so on.

Sure, it is in itself somewhat interesting that a physicist like Daniel Coumbe has researched the topic and written a book about it, but what is far more interesting is the actual content of that book. So too for the books written by J. Allen Hynek (astronomer and initial debunker).

Also, is it really true that you can find nuclear launch officers (or the like) who have claimed that some other paranormal phenomenon interfered with their nuclear weapons (or a similarly consequential system)?

For one, eye-witness reports of UFOs have in many cases been corroborated by radar evidence, which to my knowledge has not happened in the case of any claimed miracles. (See e.g. this playlist, the 1952 Washington DC incident, the 1986 Brazil incident, and Coumbe, 2022.)

Second, the eye-witnesses are in many cases trained pilots who describe going through a fairly rational process of hypothesis testing, like "first I thought it might be a balloon, then that was ruled out by x maneuver", "then I thought of y conventional hypothesis, but that was ruled out by z". And the witnesses generally don't have any interest in UFOs, and they often report finding it difficult to believe what they saw.

Third, there are a number of cases where different pilots report seeing the same object from different angles (e.g. Dietrich and Fravor from different jets).

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