Advances in Physics Theories and Applications

We study stability analysis, asymptotic stability and Solutional behaviour of the system String Theory and Quantum Information Theory, S-Duality, T-Duality, And U-Duality, Black Hole Information Paradox, Information theory, Chaos Theory, Psychometric investigation of a belief system and other variables. Various types of stability may be discussed for the solutions of differential equations describing dynamical systems. The most important type is that concerning the stability of solutions near to a point of equilibrium. This may be discussed by the theory of Lyapunov. In simple terms, if all solutions of the dynamical system that start out near an equilibrium point x_e stay near x_e forever, then x_e is Lyapunov stable. More strongly, if x_e is Lyapunov stable and all solutions that start out near x_e converge to x_e, then x_e is asymptotically stable. The notion of exponential stability guarantees a minimal rate of decay, i.e., an estimate of how quickly the solutions converge. Phase plane analysis Differential geometry (Feedback linearization); Lyapunov theory, intelligent techniques: Neural networks, Fuzzy logic, Genetic algorithm etc. Describing functions, Optimization theory, and variational optimizations are various methods used in non linear stability analysis (Dr. Radhakant Padhi Stability analysis of Non linear systems).The idea of Lyapunov stability can be extended to infinite-dimensional manifolds, where it is known as structural stability, which concerns the behavior of different but "nearby" solutions to differential equations. Input-to-state stability (ISS) applies Lyapunov notions to systems with inputs. von Neumann stability is necessary and sufficient for stability in the sense of Lax–Richtmyer (as used in the Lax equivalence theorem): The PDE and the finite difference scheme models are linear; the PDE is constant-coefficient with periodic boundary conditions and have only two independent variables; and the scheme uses no more than two time levels (See Wikipedia) Von Neumann stability is necessary in a much wider variety of cases. It is often used in place of a more detailed stability analysis to provide a good guess at the restrictions (if any) on the step sizes used in the scheme because of its relative simplicity. Albeit forwarded in nine module systematizations, the entire gamut is to be seen in a single shot, and the presentation of nine schedule twenty seven storey models is to circumvent typing of hundreds of superscripts and subscripts. In fact the statement is made inclusive of all previous models, and the variables are definitely different for each schedule, which again is reinstated due to typing of millions of systems.

The full paper: http://www.iiste.org/PDFshare/APTA-PAGENO-117890-122734.pdf