Litcius/Paper detail

A ROBUST ITERATIVE APPROACH FOR SOLVING NONLINEAR VOLTERRA DELAY INTEGRO–DIFFERENTIAL EQUATIONS

Austine Efut Ofem, Unwana Effiong Udofia, Donatus Ikechi Igbokwe

2021Ural mathematical journal20 citationsDOIOpen Access PDF

Abstract

This paper presents a new iterative algorithm for approximating the fixed points of multivalued generalized \(\alpha\)–nonexpansive mappings. We study the stability result of our new iterative algorithm for a larger concept of stability known as weak \(w^2\)–stability. Weak and strong convergence results of the proposed iterative algorithm are also established. Furthermore, we show numerically that our new iterative algorithm outperforms several known iterative algorithms for multivalued generalized \(\alpha\)–nonexpansive mappings. Again, as an application, we use our proposed iterative algorithm to find the solution of nonlinear Volterra delay integro-differential equations. Finally, we provide an illustrative example to validate the mild conditions used in the result of the application part of this study. Our results improve, generalize and unify several results in the existing literature.

Topics & Concepts

Convergence (economics)Nonlinear systemStability (learning theory)Iterative methodMathematicsApplied mathematicsFixed pointDifferential (mechanical device)AlgorithmMathematical optimizationComputer scienceMathematical analysisQuantum mechanicsEngineeringEconomic growthEconomicsPhysicsMachine learningAerospace engineeringOptimization and Variational AnalysisFractional Differential Equations SolutionsAdvanced Optimization Algorithms Research