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A Contemporary Study of Iterative Methods: Convergence, Dynamics and Applications evaluates and compares advances in iterative techniques, also discussing their numerous applicati… Read more
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A Contemporary Study of Iterative Methods: Convergence, Dynamics and Applications evaluates and compares advances in iterative techniques, also discussing their numerous applications in applied mathematics, engineering, mathematical economics, mathematical biology and other applied sciences. It uses the popular iteration technique in generating the approximate solutions of complex nonlinear equations that is suitable for aiding in the solution of advanced problems in engineering, mathematical economics, mathematical biology and other applied sciences. Iteration methods are also applied for solving optimization problems. In such cases, the iteration sequences converge to an optimal solution of the problem at hand.
1. The majorization method in the Kantorovich theory2. Directional Newton methods3. Newton’s method4. Generalized equations5. Gauss–Newton method6. Gauss–Newton method for convex optimization7. Proximal Gauss–Newton method8. Multistep modified Newton–Hermitian and Skew-Hermitian Splitting method9. Secant-like methods in chemistry10. Robust convergence of Newton’s method for cone inclusion problem11. Gauss–Newton method for convex composite optimization12. Domain of parameters13. Newton’s method for solving optimal shape design problems14. Osada method15. Newton’s method to solve equations with solutions of multiplicity greater than one16. Laguerre-like method for multiple zeros17. Traub’s method for multiple roots18. Shadowing lemma for operators with chaotic behavior19. Inexact two-point Newton-like methods20. Two-step Newton methods21. Introduction to complex dynamics22. Convergence and the dynamics of Chebyshev–Halley type methods23. Convergence planes of iterative methods24. Convergence and dynamics of a higher order family of iterative methods25. Convergence and dynamics of iterative methods for multiple zeros
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