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DSimon comments on David Chalmers' "The Singularity: A Philosophical Analysis" - Less Wrong
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Hm. I suppose that's possible, though it would require that the AI be given a utility function that's specifically meant to be amenable to that kind of revision.
Under the most straightforward (i.e. not CEV-style) utility function design, fuzziness in its definition of "paperclip" would just drive the paperclip-maximizer to choose the possible definition that yields the highest utility score.
To pick a different silly example, a dog-maximizer with a utility function based on the number of dogs in the universe would simply prefer to tile the solar system with tiny Chihuahas rather than Great Danes; the whole range of "dog" definitions fit the function, so it just chooses the one that is most convenient for maximum utility. It wouldn't try to resolve it by trying to decide which definition is more in line with the designer's ideals, unless "consider the designer's ideals" were designed into the system from the start.
Is designing "consider the designer's ideals" in an AI difficult?
Currently expected to be difficult, since we don't know of an easy way to do so. That it'll turn out to be easy (in the hindsight) is not totally out of the question.
Has anyone considered approaching this problem in the same way we might approach "read the user's handwriting"? That is, the task is not one we program the AI to accomplish - instead, we train the AI to accomplish it. And, most importantly, we train the AI to ask for further clarification in ambiguous cases.
Mirrors and Paintings (yes, you want to point your program at the world and have it figure out what you referred to), The Hidden Complexity of Wishes (if you need to answer AI's question or give it instructions, you're doing something wrong and it won't work).
I have to admit, as someone who has worked in software testing, I find it difficult to take the suggestion (non-destructive full-brain scan) in the first link very seriously. How, exactly, do I become convinced that the AI can come to know more about what I want by scanning me than I can know by introspection? How can I (or it) even do a comparison between the two without it asking me questions?
But then we get down to doing the comparison. The AI informs me that what I really want is to kill my father and sleep with my mother. I deny this. Do we take this as evidence that the AI really does know me better than I know myself, or as a symptom of a bug?
I would argue that if you don't need to answer the AI's questions or give it instructions, you're doing something wrong and it won't work. By definition. At least for the first ten thousand scans or so. And even then there will remain questions on which the AI and introspection would deliver different answers. Questions with hidden complexity. I just don't see how anyone would trust a CEV extrapolated from brain scans until we had decades of experience suggesting that scanning and modeling yields better results than introspection.
Agreed. And any useful AI will have to understand human language to do or learn much anything of value.
The detailed analysis of full brain scanning tech I've seen puts it far into the future, well beyond human-level AGI.
You have to make sure AI predictably gives a better answer even on questions where you disagree. And there will be questions which can't even be asked of a human.
Irrelevant. Assume you magically have a perfect working simulation of yourself.
Why would I want to do that? I.e. how would making that assumption lead me to take Eliezer's suggestion more seriously? My usual practice is to take things less seriously when magic is involved.
And how does this assumption interact with your other comment stating that I have to make sure the AI is somehow even better than myself if there is any difference between simulation and reality? Haven't you just asked me to assume that there are no differences?
Sorry, I simply don't understand your responses, which suggests to me that you did not understand my comment. Did you notice, in my preamble, that I mentioned software testing? Perhaps my point may be clearer to you if you keep this preamble in mind when formulating your responses.
Because that's a conceptually straightforward assumption that we can safely make in a philosophical argument.
The upload is not the AI (and Eliezer's post doesn't refer to uploads IIRC, but for the sake of the argument assume they are available as raw material). You make AI correct on strong theoretical grounds, and only test things to check that theoretical assumptions hold in ways where you expect it to be possible to check things, not in every situation.
What would I need to make of that?
But this is not a philosophical argument.
To recap:
These are questions about engineering and neuroscience, not questions of philosophy. The question of what is right/wrong is a philosophical question. The question of what do humans believe about right and wrong is a psychology question. The question of how those beliefs are represented in the brain is a neuroscience question. The question of how an AI can come to learn these things is GOFAI. The question of how we will know we have done it right is a QC question. Software test. That was the subject of my comment. It had nothing at all to do with philosophy.
Ok, in this context, I interpret this to mean that we will not program in the neuroscience information that it will use to interpret the brain scans. Instead we will simply program the AI to be a good scientist. A provably good scientist. Provable because it is a simple program and we understand epistemology well enough to write a correct behavioral specification of a scientist and then verify that the program meets the specification. So we can let the AI design the brain scanner and perform the human behavioral experiments to calibrate its brain models. We only need to spot-check the science it generates, because we already know that it is a good scientist.
Hmmm. That is actually a pretty good argument, if that is what you are suggesting. I'll have to give that one some thought.
Relevant - Can we just assume you magically have a friendly AI then?
If the plan for creating a friendly AI depends on a non-destructive full-brain scan already being available, the odds of achieving friendly AI before other forms of AI vanish to near zero.
One step at a time, my good sir! Reducing the philosophical and mathematical problem of Friendly AI to the technological problem of uploading would be an astonishing breakthrough quite by itself.
I think this reflects the practical problem with Friendly AI - it is an ideal of perfection taken to an extreme that expands the problem scope far beyond what is likely to be near term realizable.
I expect that most of the world, research teams, companies, the VC community and so on will be largely happy with an AGI that just implements an improved version of the human mind.
For example, humans have an ability to model other agents and their goals, and through love/empathy value the well-being of others as part of our own individual internal goal systems.
I don't see yet why that particular system is difficult or more complex than the rest of AGI.
It seems likely that once we can build an AGI as good as the brain we can build one that is human-like but only has the love/empathy circuitry in it's goal system with the rest of the crud stripped out.
In other words if we can build AGI's modeled after the best components of the best examples of altruistic humans, this should be quite sufficient.
This is the straightforward approach.
Once you have an AGI that has the cognitive capability and learning capacity of a human infant brain, you teach it everything else in human language - right/wrong, ethics/morality, etc.
Programming languages are precise and well suited for creating the architecture itself, but human languages are naturally more effective for conveying human knowledge.
I tend to agree that we need a natural language interface to the AI. But it is far easier to create automatic proofs of program correctness when the really important stuff (like ethics) is presented in a formal language equipped with a deductive system.
There is something to be said for treating all the natural language input as if it were testimony from unreliable witnesses - suitable, perhaps, for locating hypotheses, but not really suitable as strong evidence for accepting the hypotheses.
I'm not sure how this applies - can you formally prove the correctness of a probabilistic belief network? Is that even a valid concept?
I can understand how you can prove a formal deterministic circuit or the algorithms underlying the belief network and learning systems, but the data values?
Agree. That is why I suggest that the really important stuff - meta-ethics, epistemology, etc., be represented in some other way than by 'neural' networks. Something formal and symbolic, rather than quasi-analog. All the stuff which we (and the AI) need to be absolutely certain doesn't change meaning when the AI "rewrites its own code"
By formal, I assume you mean math/code.
The really important stuff isn't a special category of knowledge. It is all connected - a tangled web of interconnected complex symbolic concepts for which human language is a natural representation.
What is the precise mathematical definition of ethics? If you really think of what it would entail to describe that precisely, you would need to describe humans, civilization, goals, brains, and a huge set of other concepts.
In essence you would need to describe an approximation of our world. You would need to describe a belief/neural/statistical inference network that represented that word internally as a complex association between other concepts that eventually grounds out into world sensory predictions.
So this problem - that human language concepts are far too complex and unwieldy for formal verification - is not a problem with human language itself that can be fixed by using other language choices. It reflects a problem with the inherit massive complexity of the world itself, complexity that human language and brain-like systems are evolved to handle.
These folks seem to agree with you about the massive complexity of the world, but seem to disagree with you that natural language is adequate for reliable machine-based reasoning about that world.
As for the rest of it, we seem to be coming from two different eras of AI research as well as different application areas. My AI training took place back around 1980 and my research involved automated proofs of program correctness. I was already out of the field and working on totally different stuff when neural nets became 'hot'. I know next to nothing about modern machine learning.
To get to that point we have to start from the right meaning to begin with, and care about preserving it accurately, and Jacob doesn't agree those steps are important or particularly hard.
Not quite.
As for the start with the right meaning part, I think it is extremely hard to 'solve' morality in the way typically meant here with CEV or what not.
I don't think that we need (or will) wait to solve that problem before we build AGI, any more or less than we need to solve it for having children and creating a new generation of humans.
If we can build AGI somewhat better than us according to our current moral criteria, they can build an even better successive generation, and so on - a benevolence explosion.
As for the second part about preserving it accurately, I think that ethics/morality is complex enough that it can only be succinctly expressed in symbolic associative human languages. An AGI could learn how to model (and value) the preferences of others in much the same way humans do.
There are some promising lines of attack (grounded in decision theory) that might take only a few years of research. We'll see where they lead. Other open problems in FAI might start looking very solvable if we start making progress on this front.
Show me.
PM'd.
Yes. :)