Extended Efficient Multistep Solvers for Solving Equations in Banach Spaces

Author:

Behl Ramandeep1,Argyros Ioannis K.2,Alharbi Sattam3ORCID

Affiliation:

1. Mathematical Modelling and Applied Computation Research Group (MMAC), Department of Mathematics, King Abdulaziz University, Jeddah 21589, Saudi Arabia

2. Department of Computing and Mathematical Sciences, Cameron University, Lawton, OK 73505, USA

3. Department of Mathematics, College of Science and Humanities in Al-Kharj, Prince Sattam Bin Abdulaziz University, Al-Kharj 11942, Saudi Arabia

Abstract

In this paper, we investigate the local and semilocal convergence of an iterative method for solving nonlinear systems of equations. We first establish the conditions under which these methods converge locally to the solution. Then, we extend our analysis to examine the semilocal convergence of these methods, considering their behavior when starting from initial guesses that are not necessarily close to the solution. Iterative approaches for solving nonlinear systems of equations must take into account the radius of convergence, computable upper error bounds, and the uniqueness of solutions. These points have not been addressed in earlier studies. Moreover, we provide numerical examples to demonstrate the theoretical findings and compare the performance of these methods under different circumstances. Finally, we conclude that our examination offers a significant understanding of the convergence characteristics of previous iterative techniques for solving nonlinear equation systems.

Funder

Prince Sattam bin Abdulaziz University

Publisher

MDPI AG

Reference19 articles.

1. Kantorovich, L.V., and Akilov, G.P. (1982). Functional Analysis, Pergamom Press.

2. Traub, J.F. (1964). Iterative Methods for the Solution of Equations, Prentice-Hall.

3. Argyros, I.K. (2022). Theory and Applications of Iterative Methods, CRC Press-Taylor and Francis Group.

4. Argyros, I.K. (2008). Convergence and Application of Newton-Type Iterations, Springer.

5. Burden, R.L., and Faires, J.D. (2001). Numerical Analysis, PWS Publishing Company.

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