Reasoning by SVD and morphotronic network

The immune system of the vertebrates possess the capabilities of "intelligent" information processing, which include memory, the ability to learn, to recognize, and to make decisions with respect to unknown situations. The mathematical formalization of these capabilities forms the basis of immune-computing (IC) as a new computing approach that replicates the principles of information processing by proteins and immune networks. This IC approach looks rather constructive as a basis for a new kind of computing. With the Morphotronic System or the analogous SVD we can create effective learning process and create immune memory by the projection operators. Given the immune memory is possible to recognize and compare antigen in a way to take defense action to eliminate the dangerous cell

Morphotronic system applications

This paper discusses a newly proposed Morphotronic System paradigm that can be used as a general computation model for construction of software. The Morphotronic System allows for a definition of very flexible software prototypes, in which a processing path can be interpreted as an extremum principle. This approach offers a significant improvement to traditional software practices. The system purpose is stated as a conceptual input to the computer system at a starting point of the computation process while the local machine state is completely ignored. The system context and its rules are generated as resources to allocate the computational components. The morphotronic system applies non-Euclidean geometry which allows to shape the context and to define the projection operators for an ideal network of forms. © 2009 Springer-Verlag Berlin Heidelberg