My Brain Function Model

The above model is part of a complex model of my research paper that I have been working and research  and plan to publish in the next few years if I felt that the model will be able to expand and apply for some practical solutions . It can be used to develop stimulation applications for testing patients during the rehap process. It also can be used to develop new medical equipments and processes to help patients to recover after the operation. It will use the latest technology like: parallel processing, AI, embedded technology and computational biology (for discovery the mathematical model).. and String theory for building next generation of computers/systems/applications and network protocol and infrastructures. You can also use my model to improve the performance of your applications/systems better in the multi-threaded environment by adjusting corrected parameters.

The next generation of computers/systems/application will be able to perform complex opreations, generate ouput based on existing data(present and the past) but only consume little energy and produce little heat.

String Theory

Here is the short descrption of string theory by Dr. D. A. Wagenaar at Caltech will explain about the famous theory.....

"A low energy effective action is derived for a single D-particle. We find that at open string tree level, it behaves like a free particle with mass ~ 1/g_c. A system of many D-particles is described by a Yang-Mills action after dimensional reduction to 0+1 dimensions. Physically, the degrees of freedom are the relative positions of the particles, and a set of harmonic oscillators corresponding to strings that may stretch between them. Upon compactification, the quantum mechanics of many D-particles turns out to be equivalent to Yang-Mills theory on a single multiply wound D-string, a fact that is known as T-duality.

Scattering of two D-particles is considered. It is found that supersymmetry is essential, since purely bosonic D-particles are confined by a potential that grows linearly with the distance between them. In the supersymmetric theory, D-particle scattering is found to contain broad resonances, which offers evidence for the existence of bound states of N D-particles, as needed for the conjectured equivalence of M-theory and D-particle quantum mechanics......"

Using the concept of open string, closed, oriented/unoriented string in the N dimensions and D-1 functions of time might help to explain the action from my diagram above.