Functions are just encryption and processing of multisensory computer information. This assumption means that once brain functions are appropriately understood, they can be programmed into computers. For example, Microsoft recently announced that it would spend $1 billion on a project.
So far, however, attempts to create a supercomputer brain have not come close to success, and it has become evident that the European project, which began in 2013 and cost billions of dollars, has failed. Instead.
These efforts have turned into a similar but less ambitious project in the united states. Developing new software tools for researchers to study brain data rather than simulate it.
Some researchers insist that computer simulations of neuroscience are the right way. In contrast, others argue that these efforts are doomed to failure because we do not believe awareness is accountable.
Our central argument is that brains integrate and compress many elements of an experience, including sight and smell. Simply our computers today cannot deal with these components in the way that data is sensed, processed and stored.
Brains Don’t Work Like Computer
Organisms store their experiences in their brains by adapting neural connections in an ongoing process between them and the environment. by contrast. The computer records data in short-term and long-term memory blocks. This difference means that processing information in the brain is inevitably different from how computers process it.
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The mind constantly explores the environment to find elements that require action in one way or another. Cognition is not directly related to sensory data. So a person can perceive a table from several different angles without consciously interpreting the data and then asking his memory about the possibility of creating this pattern from another view of a previously identified element.
Another perspective is that most natural memory tasks are associated with multiple areas of the brain, some of which are very large. In addition, learning skills and experiences include a reorganization and physical changes, such as changing the bonding strength between neurons. These changes cannot be copied on a computer with a fixed structure.
Computing and Awareness
Awareness is unaccountable. A conscious person understands what he is thinking, can stop thinking about something and start thinking about something else regardless of where he is in the context of his first thought. Still, the computer can’t do so.
For more than 80 years, leading British computer scientist alan turing has made it clear that there is absolutely no way to prove that any computer program can stop. A capability essential to awareness.
his argument is based on a logical trick, creating a latent contradiction: imagine that after analyzing any program, a general process can determine whether it will stop. The outcome of the process will be either (yes will stop) or (no will stop). And that is clear, but turing imagined a skilled engineer who wrote a program with the stop verification process. With one key element: an instruction to keep the program running if the investigator’s answer was “yes will stop.”
Stop Verification Process about Computer
When you run the stop verification process on this new program. This program will make the stop checker err: if the auditor determines that the program will stop. The program’s instructions will tell him not to stop. On the other hand, if the stop checker decides that the program will not stop. The program’s instructions will stop everything immediately.
It is nonsense and meaningless, and from this nonsense, turing came to a conclusion: there is no way to analyze the program and make sure it can stop. So it is impossible to be sure that a computer can simulate a system that can prevent itself from thinking about something and change its course of thinking towards something else. Still, certainty about this ability is an integral part of awareness.
Even before Turing’s work, german quantum physicist Werner Heisenberg explained a clear difference between the nature of the physical event and the conscious knowledge of the event controller. In contrast, Austrian physicist Erwin Schrodinger explained that awareness could not result from a physical process. As with a computer that reduced all functions to basic logic arguments.
The results of medical research confirmed these ideas and that the brain does not have a unique structure dedicated to dealing with awareness. Instead, MRI shows that different cognitive tasks occur in other areas of the brain. Which led neuroscientists to conclude that: “awareness is not a unit. And instead. A lot of awareness distributing in time and space.” This unlimited brain capacity is a challenge that limited computers can never deal with.