Could you elaborate on why you think 'deep' futures are the ones most reflective of human will?
I can try. This is new thinking for me, so tell me if this isn't convincing.
If a future is deep with respect to human progress so far, but not as deep with respect to all possible incompressible origins, then we are selecting for futures that in a sense make use of the computational gains of humanity.
These computational gains include such unique things as:
human DNA, which encodes our biological interests relative to the global ecosystem.
details, at unspecified depth, about the psychologies of human beings
political structures, sociological structures,
I attended Nick Bostrom's talk at UC Berkeley last Friday and got intrigued by these problems again. I wanted to pitch an idea here, with the question: Have any of you seen work along these lines before? Can you recommend any papers or posts? Are you interested in collaborating on this angle in further depth?
The problem I'm thinking about (surely naively, relative to y'all) is: What would you want to program an omnipotent machine to optimize?
For the sake of avoiding some baggage, I'm not going to assume this machine is "superintelligent" or an AGI. Rather, I'm going to call it a supercontroller, just something omnipotently effective at optimizing some function of what it perceives in its environment.
As has been noted in other arguments, a supercontroller that optimizes the number of paperclips in the universe would be a disaster. Maybe any supercontroller that was insensitive to human values would be a disaster. What constitutes a disaster? An end of human history. If we're all killed and our memories wiped out to make more efficient paperclip-making machines, then it's as if we never existed. That is existential risk.
The challenge is: how can one formulate an abstract objective function that would preserve human history and its evolving continuity?
I'd like to propose an answer that depends on the notion of logical depth as proposed by C.H. Bennett and outlined in section 7.7 of Li and Vitanyi's An Introduction to Kolmogorov Complexity and Its Applications which I'm sure many of you have handy. Logical depth is a super fascinating complexity measure that Li and Vitanyi summarize thusly:
The mathematics is fascinating and better read in the original Bennett paper than here. Suffice it presently to summarize some of its interesting properties, for the sake of intuition.