Stable Iteration Procedures for Strong Pseudocontractions and Nonlinear Equations Involving Accretive Operators without Lipschitz Assumption
Copyright policy )Stable Iteration Procedures for Strong Pseudocontractions and Nonlinear Equations Involving Accretive Operators without Lipschitz Assumption
In [J. Math. Anal. Appl. 204, No. 3, 677-692 (1996; Zbl 0882.47030)] \textit{M. O. Osilike} established several stability results for certain Mann and Ishikawa iteration procedures for fixed points of Lipschitz strong pseudocontractions and solutions of nonlinear accretive operator equations in real \(q\)-uniformly smooth Banach spaces. In the reviewing article the author studies the stability of these iteration processes for strong pseudocontractions without Lipschitz assumption in real uniformly smooth Banach spaces. As the consequence it is proved that these processes for approximating the solutions of the equations involving accretive operators without Lipschitz assumption are stable.
Mann iteration, Mann and Ishikawa iteration, real \(q\)-uniformly smooth Banach spaces, stability result, Numerical solutions to equations with nonlinear operators, fixed points, Applied Mathematics, accretive operators, Iterative procedures involving nonlinear operators, strong pseudocontraction, stability results, Ishikawa iteration, accretive operator, Nonlinear accretive operators, dissipative operators, etc., iteration processes, Analysis
Mann iteration, Mann and Ishikawa iteration, real \(q\)-uniformly smooth Banach spaces, stability result, Numerical solutions to equations with nonlinear operators, fixed points, Applied Mathematics, accretive operators, Iterative procedures involving nonlinear operators, strong pseudocontraction, stability results, Ishikawa iteration, accretive operator, Nonlinear accretive operators, dissipative operators, etc., iteration processes, Analysis
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