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Title: | Ball convergence of some fourth and sixth-order iterative methods |
Authors: | Argyros, I.K. George, S. |
Issue Date: | 2016 |
Citation: | Asian-European Journal of Mathematics, 2016, Vol.9, 2, pp.- |
Abstract: | We present a local convergence analysis for some families of fourth and sixth-order methods in order to approximate a locally unique solution of a nonlinear equation in a Banach space setting. Earlier studies [V. Candela and A. Marquina, Recurrence relations for rational cubic methods II: The Chebyshev method, Computing 45 (1990) 355-367; C. Chun, P. Stanica and B. Neta, Third order family of methods in Banach spaces, Comput. Math. Appl. 61 (2011) 1665-1675; J. M. Guti rrez and M. A. Hern ndez, Recurrence relations for the super-Halley method, Comput. Math. Appl. 36 (1998) 1-8; M. A. Hern ndez and M. A. Salanova, Modification of the Kantorovich assumptions for semilocal convergence of the Chebyshev method, J. Comput. Appl. Math. 126 (2000) 131-143; M. A. Hern ndez, Chebyshev's approximation algorithms and applications, Comput. Math. Appl. 41 (2001) 433-455; M. A. Hern ndez, Second-derivative-free variant of the Chebyshev method for nonlinear equations, J. Optim. Theory Appl. 104(3) (2000) 501-515; J. L. Hueso, E. Martinez and C. Teruel, Convergence, efficiency and dynamics of new fourth and sixth-order families of iterative methods for nonlinear systems, J. Comput. Appl. Math. 275 (2015) 412-420; . A. Magre n n, Estudio de la din mica del m todo de Newton amortiguado, Ph.D. Thesis, Servicio de Publicaciones, Universidad de La Rioja (2013), http://dialnet.unirioja.es/servlet/tesis?codigo=38821; J. M. Ortega and W. C. Rheinboldt, Iterative Solution of Nonlinear Equations in Several Variables (Academic Press, New York, 1970); M. S. Petkovic, B. Neta, L. Petkovic and J. D unic, Multi-Point Methods for Solving Nonlinear Equations (Elsevier, 2013); J. F. Traub, Iterative Methods for the Solution of Equations, Automatic Computation (Prentice-Hall, Englewood Cliffs, NJ, 1964); X. Wang and J. Kou, Semilocal convergence and R-order for modified Chebyshev-Halley methods, Numer. Algorithms 64(1) (2013) 105-126] have used hypotheses on the fourth Fr chet derivative of the operator involved. We use hypotheses only on the first Fr chet derivative in our local convergence analysis. This way, the applicability of these methods is extended. Moreover the radius of convergence and computable error bounds on the distances involved are also given in this study. Numerical examples illustrating the theoretical results are also presented in this study. 2016 World Scientific Publishing Company. |
URI: | http://idr.nitk.ac.in/jspui/handle/123456789/10042 |
Appears in Collections: | 1. Journal Articles |
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