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Algorithms for solutions of extended general mixed variational inequalities and fixed points

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An Erratum to this article was published on 23 March 2013

Abstract

In this paper, we introduce and study a new class of extended general nonlinear mixed variational inequalities and a new class of extended general resolvent equations and establish the equivalence between the extended general nonlinear mixed variational inequalities and implicit fixed point problems as well as the extended general resolvent equations. Then by using this equivalent formulation, we discuss the existence and uniqueness of solution of the problem of extended general nonlinear mixed variational inequalities. Applying the aforesaid equivalent alternative formulation and a nearly uniformly Lipschitzian mapping S, we construct some new resolvent iterative algorithms for finding an element of set of the fixed points of nearly uniformly Lipschitzian mapping S which is the unique solution of the problem of extended general nonlinear mixed variational inequalities. We study convergence analysis of the suggested iterative schemes under some suitable conditions. We also suggest and analyze a class of extended general resolvent dynamical systems associated with the extended general nonlinear mixed variational inequalities and show that the trajectory of the solution of the extended general resolvent dynamical system converges globally exponentially to the unique solution of the extended general nonlinear mixed variational inequalities. The results presented in this paper extend and improve some known results in the literature.

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Authors and Affiliations

  1. Department of Mathematics, Sari Branch, Islamic Azad University, Sari, Iran

    Javad Balooee

  2. Department of Mathematics Education and RINS, Gyeongsang National University, Chinju, 660-701, Korea

    Yeol Je Cho

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  1. Javad Balooee
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Correspondence to Javad Balooee.

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Balooee, J., Cho, Y.J. Algorithms for solutions of extended general mixed variational inequalities and fixed points. Optim Lett 7, 1929–1955 (2013). https://doi.org/10.1007/s11590-012-0516-2

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  • DOI: https://doi.org/10.1007/s11590-012-0516-2

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