Stochastic Game Formulation for Cancer Radiographical Detection

Abstract

In this write-up mathematical model of cell osmotic process is developed. Probability density distribution of interval to administer biostimulant for optimal survival is obtained. The traditional cancer therapy problem is formulated as non zero sum cyclic stochastic game employing behavior strategies for optimal survival. Mathematical model is obtained for ion transmitter for hypothermia therapy. Neural supervised training algorithm employing amorphous model for hypothermia therapy is given. Radiation transport model for tumor growth and procedure for forecasting tumor metastasis process is given. Probability density distribution of tumor process termination time is obtained.