Hi Ann. Any short list of people working on machine consciousness would have to include Ray Kurzweil. I suspect that's exactly what he is up to at Google. He already has a well thought out published theory of the source of consciousness in humans.
Thanks, William. I knew people working on AI back in the early 70s and again in the 90s and 00s. Trying to make computers work like we do in terms of logical processes is still a far cry from also giving them sentience and self-awareness. But no, I don't relish the thought of a toaster or a fridge with a 'tude. My computer already seems to have that problem :)
BUT, in the public domain there have been references to some university people working towards artificial intelligence, and they have included self awareness as one means of moving toward human type judgement. My advice would remain, to "Think very carefully about the ultimate effects of your creations", because sometimes the machine does not stop just because you push the stop button.
Since people are rather less predictable than computers and robots, conside the problems that we could have if those in-animate things became a lot less predictable. What if your washing machine developed an "attitude problem", rather than just a component failure?
William, you've posted this basic comment/idea so often that I'm starting to think you know something about AI that the rest of us don't. The last time I looked, they were nowhere near achieving the kind of thing you're suggesting. Can you tell us any specifics of who's doing self-awareness research on the cutting edge right now?
Ann, Of course self awareness is not what these researchers are aiming for , but others are seeking to make the robots "Real", using artificial inteligence. My concern is that the AI group will create something that leads to self awarenesss, and shortly after that we will al be in trouble. Just considerthe problem of being in a cloud of rbots small enough to inhale accidentaly, and being allergic to their case materials.
Cabe, great visualization & metaphor. I wonder, though, if they're too small to deal with space junk. NASA is working on a different robotic system for that, which we covered here: http://www.designnews.com/author.asp?section_id=1386&doc_id=249134
The satlets' size is not given, but I'd guess it's a bit bigger than these droplets.
William, the researchers mentioned primarily assembly, not repair. The repair mentioned in the article was done by larger robots, and on coral reefs, which takes very little strength: picking up and placing very small pieces of coral. And swarms of small robots have worked together to assemble structures both large and small: http://www.youtube.com/watch?v=W18Z3UnnS_0 http://www.idsc.ethz.ch/Research_DAndrea/Archives/Flying_Machine_Enabled_Construction
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Much of the research on lithium-ion batteries is focused on how to make the batteries charge more quickly and last longer than they currently do, work that would significantly improve the experience of mobile device users, as well EV and hybrid car drivers. Researchers in Singapore have come up with what seems like the best solution so far -- a battery that can recharge itself in mere minutes and has a potential lifespan of 20 years.
Some humanoid walking robots are also good at running, balancing, and coordinated movements in group settings. Several of our sports robots have won regional or worldwide acclaim in the RoboCup soccer World Cup, or FIRST Robotics competitions. Others include the world's first hockey-playing robot and a trash-talking Scrabble player.
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