Almost all human cognitive empirical work involves behavioral criteria. We make inferences about mind/brain functionality by observing behavior under controlled conditions.
Listen to Jeff Hawkins take on this behavioral issue. He's fairly detailed in rebutting it.
http://www.youtube.com/watch?v=G6CVj5IQkzk
My consciousness doesn't require any action or observable behavior. The behavioral criteria was an operational acceptance of the limits in what we could observe. In its initial form, it made no claim behavior actually defined what consciousness is, only that it provided an empirical handle on observing it. From this the notion was then born the that if we couldn't recognize the difference in behavior between a real and artificial AI it must indeed be conscious. Listen to Hawkins for a more complete set of issues with this.
We are quiet limited in the extent to what we can a priori read from brain waves alone, and most such approaches require some training. It also makes the engineering easier. But we most certainly can tell whether you are looking at a table or a chair. etc., from brain waves alone, and without prelearning required. The most basic structures are robust across languages, cultures, etc. Obviously we can't follow your reasoning process while doing a math problem from brain waves. We can also give you a set of choices and know what choice you are going to make before you do, from brain waves alone. Although it uses some preconditioning, Japanese researchers are partially successful at creating video recordings of your dreams.
http://www.memebox.com/futureblogger/show/1424-japanese-researchers-close-to-recording-your-dreams
http://www.cns.atr.jp/dcn/en/
Where is the "behavioral criteria" in that.
I think I know which study you're referring to. It's not very impressive in my opinion. Certainly far less than some people make it out to be in free will discussions and such.
Naturally there are limitations, and this instance limits choices and time frames such that we know up from what part of the brain waves to look at. Some of the limitations can be overcome, as a result of large scale similarities in our brains. Others, like preconditioning for video recording dreams it's likely to have the same limitations our own brains have. A baby is not born knowing how the control mechanism for their arms for instance works. And what is learned likely consist of leaning the specifics of inputs and outputs unique to that individual. If so, which it is essentially certain it is below some large scale, the notion of fine scale reading of peoples brains without first learning from that particular brain would be as silly as a baby born already knowing calculus. As I'll point out below, even the apparent knowledge of where your body is, or any of its parts are, can be maniplulated.
It's not a whole lot more impressive than a pulse game controller or a blood pressure game controller would be, really. More fun, yes. I think they're cool actually, just not very impressive from a cognitive science perspective.
Is the video dream recorder cool? Does it work like a "blood pressure" trick? I think not, however limited it might be.
The main difference between strict behaviorism and today's cognitive science is that behaviorists would say you cannot make conclusions about the brain/mind based on behavioral criteria, whereas now that is not generally the case. Both still are primarily based on observing behavior (including things like self reports).
Define behavior here. Fundamentally all empirical science theory is based consistency with observational data. Yet today we are in no way limited by self reports or external behaviors to observe the brain in operation. We can watch individual neuron activations, we can artificially activate that neuron and watch the effect on the global neural response, we can see what effect it has on body movements, etc., which happen without the choice of the subject. "Observing behavior" is not limited to an individuals behavior.
Ever heard of mirror neurons? These neurons are not about your actions, but acting as though someone else's actions are your actions.
http://www.ted.com/talks/lang/eng/vs_ramachandran_the_neurons_that_shaped_civilization.html
I'm pretty sure this is not accurate.
It is absolutely accurate. Here's how we learned about it:
http://www.ted.com/talks/lang/eng/vilayanur_ramachandran_on_your_mind.html
The phantom limb treatment he discusses afterwords is based on the same phenomena used to create ultra realistic out of body experiences with more elaborate equipment.
I'm inclined to agree it's not a "whole body phenomena" although a lot of that dispute may come down to semantics.
As the existence and later disappearance of the phantom limb in the above video indicates, your body is modeled in your brain and takes feedback from it. Yet with the proper feedback cues that brain model can entirely mismatch reality, creating parts that don't exist and disappearing parts that do exist. Thus the "whole body phenomena" appears valid so long as the model in your brain matches reality. Yet reality mismatch inconsistencies described above show that it's an illusion created by model consistency. OBE's are very cool when you can watch yourself sitting across the room from you, and not that difficult to do. The trick to getting it to work is to include more location feedback than just visible. Such as prodding you in your imaginary location while giving you real tactile feedback from the prodding.
http://www.msnbc.msn.com/id/20411858/
