Reckoning applications of Z-iteration: Data dependence and solution to a delay Caputo fractional differential equation

Reckoning applications of Z-iteration: Data dependence and solution to a delay Caputo fractional differential equation

In this study, we focus on demonstrating the stability of the three-step Z-iterative scheme within the context of weak contraction mappings as defined by Berinde. Further, we attain results concerning stability, data dependence, and error accumulation of the Z-iterative scheme. This article also in...

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Bibliographic Details
Main Authors: Salman Zaheer, Ankush Chanda, Hemant Kumar Nashine
Format: Article
Language:English
Published: Vilnius University Press 2024-07-01
Series:Nonlinear Analysis
Subjects:
weak contractions
stability
data dependency
error estimation, delay fractional differential equations
Online Access:https://journals.vu.lt./nonlinear-analysis/article/view/35403
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Summary:In this study, we focus on demonstrating the stability of the three-step Z-iterative scheme within the context of weak contraction mappings as defined by Berinde. Further, we attain results concerning stability, data dependence, and error accumulation of the Z-iterative scheme. This article also includes a comparison of the convergence rates among various established iterative strategies. Several illustrative numerical examples are furnished to validate the accuracy and reliability of our findings. In the same spirit, we present an application that utilises the Z-iterative technique on Banach spaces to attain the solution of a delay Caputo fractional differential equation, building upon our primary findings.
ISSN:1392-5113
2335-8963

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