We argue that a brain-machine interface (BMI) might be possible. Specifically, we introduce a model of consciousness that combines our brain’s understanding of the world with a computer. We introduce a novel, nonlinear process for manipulating physical systems in virtual space, a process that we call the ‘mind model.’ We argue that with such an interface, we might be able to transfer consciousness from one brain to another, even if the two are in different physical regions of the brain.
To perform such a manipulation, we show that such an interface could be implemented with a conventional two-node computer and a conventional processor. Our experimental results reveal two surprising properties: First, using such an interface, we are able to manipulate a physical object like a human body as though it were a computer program; and second, we can also use such an interface to transfer consciousness from one brain to another, even if such an interface did not originate with that specific brain (assuming that the brain is in the same physical region as the interface).
As a result, we provide evidence that if our understanding of consciousness grows, we may be able to move mind-to-machine interfaces at the interface level into the physical world, thereby developing artificial super-human cognitive abilities.
A critical message from this paper is that the way in which we understand consciousness and the way in which we interpret the body are not separate entities. Rather, they are related. We can’t distinguish between them, and so it’s critical to understand what is happening to the brain at the interface as well as the body to achieve the transfer of consciousness.
2. The brain model.
We will first explain why our model of consciousness (or ‘mind model’) should work with a computer, an assumption that can be challenged. As we’ll see, we propose that our model may be possible despite the fact that our brain’s understanding of the world is different from that of a computer’s.
We argue that, unlike for a computer, the brain (or any other physical system) will not operate solely by processing inputs. Instead, all the information received by the brain is used to solve problems, even while the brain is active.
We assume that a brain has a set of neural structures that are part of a complex neural network that are optimized to solve problems and to generate results. Such a mechanism could be applied to a computer, for example, to generate a function, with inputs and outputs.
The brain as a network of neural structures
magic tricks revealed bright side, magic trick revealed levitation wand, super easy magic tricks that kids can learn how to serve, simple magic tricks for kids parties, how to do magic tricks with your hands video