MMN-3978
Convergence theorem and convergence rate of a new faster iteration method for continuous functions on an arbitrary interval
Chonjaroen Chairatsiripong; Lanchakorn Kittiratanawasin; Damrongsak Yambangwai; Tanakit Thianwan;Abstract
The aim of this paper is to propose a new faster iterative method, called the MN-iteration process, for approximating a fixed point of continuous functions on an arbitrary interval. Then, a necessary and sufficient condition for the convergence of the MN-iteration of continuous functions on an arbitrary interval is established. We also compare the rate of convergence between the proposed iteration and some other iteration processes in the literature. Specifically, our main result shows that MN-iteration converges faster than NSP-iteration to the fixed point. We finally give numerical examples to compare the result with Mann, Ishikawa, Noor, SP and NSP iterations. Our findings improve corresponding results in the contemporary literature.
Vol. 24 (2023), No. 2, pp. 709-724