A Weak Convergence Self-Adaptive Method for Solving Pseudomonotone Equilibrium Problems in a Real Hilbert Space
Copyright policy )A Weak Convergence Self-Adaptive Method for Solving Pseudomonotone Equilibrium Problems in a Real Hilbert Space
In this paper, we presented a modification of the extragradient method to solve pseudomonotone equilibrium problems involving the Lipschitz-type condition in a real Hilbert space. The method uses an inertial effect and a formula for stepsize evaluation, that is updated for each iteration based on some previous iterations. The key advantage of the algorithm is that it is achieved without previous knowledge of the Lipschitz-type constants and also without any line search procedure. A weak convergence theorem for the proposed method is well established by assuming mild cost bifunction conditions. Many numerical experiments are presented to explain the computational performance of the method and to equate them with others.
Lipschitz-type conditions, QA1-939, pseudomonotone bifunction, weak convergence, Nash-Cournot oligopolistic equilibrium model, equilibrium problem, variational inequality problems, Mathematics
Lipschitz-type conditions, QA1-939, pseudomonotone bifunction, weak convergence, Nash-Cournot oligopolistic equilibrium model, equilibrium problem, variational inequality problems, Mathematics
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