Can a Program Run on the Human Brain?

In summary, the conversation discusses the possibility of using the human brain as a computer to run programs and if the brain is currently running a program. The concept of the brain being able to multitask and the challenges of wiring it for more mundane purposes are also mentioned. There is a discussion on what is considered a program and whether the brain is capable of running a computer program. The idea of harnessing the brain as a computer is also explored, along with the question of what it means to "run" a program on the brain. The conversation ends with a question about whether the human brain is "Turing complete."
  • #36
We'll the brain in the rats case adapted to the new information quite readily I'm proposing it may be possible that the brain would create its own interface if the information were transmitted in what is a learnable format such as computer language. It has already been noted earlier in the discussion that people are capable of "running the code" in their head so evidently with training the brain can learn to comprehend that information format. So it seems to me given both cases that it would be worth testing to see if the brain would develop it's own interface. As fare as I know no one has ever tried anything similer.
 
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  • #37
Warpspeed13 said:
We'll the brain in the rats case adapted to the new information quite readily I'm proposing it may be possible that the brain would create its own interface if the information were transmitted in what is a learnable format such as computer language. It has already been noted earlier in the discussion that people are capable of "running the code" in their head so evidently with training the brain can learn to comprehend that information format. So it seems to me given both cases that it would be worth testing to see if the brain would develop it's own interface. As fare as I know no one has ever tried anything similer.

I agree it's an interesting idea, I just think computer language is a bad idea for the implementation. Something learnable, yes but direct computer language type constructs would not be as natural to the brain as stuff more like what it has already learned. I don't agree w/ your extrapolation of the brain being able to step through a program therefore a program is in an easy format for the brain. The brain goes through a HUGE amount of steps that a computer doesn't have to when "stepping through" a program.
 
  • #38
If you want a good book that goes deep into this subject, get "Going Inside" by McCrone:https://www.amazon.com/dp/0880642629/?tag=pfamazon01-20

It's a great book, and there's a chapter called the hunt for the neural code, or something like that.

There's been much conjecture in this thread but there is a long history of discussion on this subject if one is really interested. McCrone is a good place to start and is accessible reading for the layperson.

In short, the brain "codes" information through the selective strengthening of synapses which connect networks of neuron in primary sensory cortices. This is often referred to as Hebbian learning and memories consist of sequences of these Hebbian templates that are released, or remembered temporally in the same fashion that they were stored initially. The mechanism through which this occurs is still, obviously, under investigation, but a leading candidate is a process known as "chaotic itinerancy," (http://www.ncbi.nlm.nih.gov/pubmed/15285053) whereby the chaotic state of the system moves through particular trajectories that resemble flashes of frames in a film reel. (http://www.ncbi.nlm.nih.gov/pubmed/16513196)

So, the way the brain works is really "old school." It works much like the way the old film cameras and film projectors work. There is even a "frame rate" of how these sensori-motor experiences are stored and retrieved. The details are complicated, of course, but as a gross reading, you can subdivide the frame rates of human "thought" and perception into 3 categories. You have 40 hz gamma osciallations that are essentially those that are related to the storage and retrieval of specific sensory percepts. You have beta oscillilation (~20hz) that are related to intercommunication between secondary and association cortices, and you have alpha oscillations (~10hz) that are associated with global, hemisphere-wide cognitive and sensori-motor processes.
(http://www.ncbi.nlm.nih.gov/pubmed/?term=freeman++alpha-theta+rates)

So, the point here is that, unless you have a way for a serial-based mechanism to selectively strengthen the billions of individual synapses that are responsible for each frame of a remembered percept of a sensori-motor event, then you are going to have a difficult time "uploading" a computer program into the brain. It is much more efficient to store memories in the brain and interface with it simply by training a humans eyeballs on the page of a book, and then turning the page.
 
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  • #39
phinds said:
I agree it's an interesting idea, I just think computer language is a bad idea for the implementation. Something learnable, yes but direct computer language type constructs would not be as natural to the brain as stuff more like what it has already learned. I don't agree w/ your extrapolation of the brain being able to step through a program therefore a program is in an easy format for the brain. The brain goes through a HUGE amount of steps that a computer doesn't have to when "stepping through" a program.
Hmm maybe a language used in fuzzy logic processing or trinary would be better. I wonder if this could be tested on a cockroach or a rat in a maze? Maybe teach it just left/right and then to test if it is working throw it in a new maze and transmit directions and see if it has a better success rate.
 
  • #40
Warpspeed13 said:
We'll the brain in the rats case adapted to the new information quite readily I'm proposing it may be possible that the brain would create its own interface if the information were transmitted in what is a learnable format such as computer language. It has already been noted earlier in the discussion that people are capable of "running the code" in their head so evidently with training the brain can learn to comprehend that information format. So it seems to me given both cases that it would be worth testing to see if the brain would develop it's own interface. As far as I know no one has ever tried anything similar.
I can run code in my head, but not nearly as well as a computer. The only reason I ever do it is to discover why a computer program isn't working as intended - it's a painstaking process.
I think if you wanted to try something out, you would identify something that is already communicated and try to wire it. For example, take three or four dogs and pick some sort of communication - like wagging their tail. Then use fMRI to identify areas of the brain active during tail-waving, recognizing tail-waving, and recognizing another dog. Then put a transceiver on each dog, each with a unique code. Encode proximity information to each of the other three dogs and wire them to three spots where "other dog recognition" was noted in the fMRI. Then wire the tail waving to allow communication that way.
I don't think we know how well different parts of the brain can rewire themselves to make sense of the new information. But it might be interesting to allow the dogs to interact with these transceivers for a few years.
 
  • #41
It has already been noted earlier in the discussion that people are capable of "running the code" in their head so evidently with training the brain can learn to comprehend that information format.
... the brain does not input the computer code. In machine terms, the brain uploads the written form as a series of images and then converts that into it's internal language to be thought about. The internal process is unknown in detail. The result is converted back to the computer code to output via a vector printer (your hand) and confirmed by another video scan.

The rats accommodated the presence of the new brain state - they did not "know" the information.
It is far more likely that the brain would treat intruding information as a kind of damage - after all, that part of the brain was probably used for something already.

Direct input of data to a person's brain in a way that the person could access would amount to writing memories.
That would involve much more subtlety and a more holographic access ... memories need to be written to wide areas of brain. We don't know how wide would be needed ... so now we have entered the realm of wild speculation.
 

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