In this monograph the authors present Newton-type, Newton-like and other numerical methods, which involve fractional derivatives and fractional integral operators, for the first time studied in the literature. All for the purpose to solve numerically equations whose associated functions can be also non-differentiable in the ordinary sense. That is among others extending the classical Newton method theory which requires usual differentiability of function.
Chapters are self-contained and can be read independently and several advanced courses can be taught out of this book. An extensive list of references is given per chapter. The book�s results are expected to find applications in many areas of applied mathematics, stochastics, computer science and engineering. As such this monograph is suitable for researchers, graduate students, and seminars of the above subjects, also to be in all science and engineering libraries.
Newton-Like Methods on Generalized Banach Spaces and
Fractional Calculus.- Semilocal Convegence of Newton-Like Methods and Fractional Calculus.- Convergence of Iterative Methods and Generalized Fractional Calculus.- Fixed Point Techniques And Generalized Right Fractional Calculus.- Approximating Fixed Points And K-Fractional Calculus.- Iterative Methods And Generalized G-Fractional Calculus.- Unified Convergence Analysis For IterativeAlgorithms And Fractional Calculus.- Convergence Analysis For Extended Iterative AlgorithmsAnd Fractional And Vector Calculus.- Convergence Analysis For Extended IterativeAlgorithms And Fractional Calculus.- Secant-Like Methods And Fractional Calculus.- Secant-Like Methods And Modified G- Fractional Calculus.- Secant-Like Algorithms And Generalized Fractional Calculus.- Secant-Like Methol£&
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