Molecular machinery-a nanorobotics control system design for cancer drug delivery

We present a new approach within mathematical formalisms for the problem of self assembly in molecular systems automation and its application in targeted drug delivery for cancer treatment. The problem under study concentrates its main focus on nano-robot control systems design including systems casualty, state notation and automata. We also describe the theory of nano-scale thermodynamically driven self assembly for collaborative information processing in a Bio-nanorobotics systems. A fuzzy shaped based approach is described in context of recognizing a single malignant cell along with its stage, as a target for medical treatment. The synthesis and imaging of magnetic nanoparticles, that can be functionally bind with the medicine and reached the effected regions for targeted drug delivery, such as in cancer treatment is also presented. A cybernetics approach for control, communication and computation in infinitesimal machinery systems with integration to complex man-machines systems in the light of general systems theory is suggested.