Extending the proximal point algorithm beyond convexity - Archive ouverte HAL
Communication Dans Un Congrès Année : 2022

Extending the proximal point algorithm beyond convexity

Résumé

Introduced in the 1970's by Martinet for minimizing convex functions and extended shortly afterward by Rockafellar towards monotone inclusion problems, the proximal point algorithm turned out to be a viable computational method for solving various classes of optimization problems, in particular with nonconvex objective functions. We propose first a relaxed-inertial proximal point type algorithm for solving optimization problems consisting in minimizing strongly quasiconvex functions whose variables lie in finitely dimensional linear subspaces. The method is then extended to equilibrium problems where the involved bifunction is strongly quasiconvex in the second variable. Possible modifications of the hypotheses that would allow the algorithms to solve similar problems involving quasiconvex functions are discussed, too. Numerical experiments confirming the theoretical results, in particular that the relaxed-inertial algorithms outperform their ``pure'' proximal point counterparts \cite{ILP, LAP}, are provided, too. Then we briefly discuss another generalized convexity notion for functions we called \textit{prox-convexity} for which the proximity operator is single-valued and firmly nonexpansive, and see that the standard proximal point algorithm and Malitsky’s Golden Ratio Algorithm (originally proposed for solving convex mixed variational inequalities) remain convergent when the involved functions are taken prox-convex, too.
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Dates et versions

hal-04005138 , version 1 (26-02-2023)

Identifiants

  • HAL Id : hal-04005138 , version 1

Citer

Sorin-Mihai Grad, Felipe Lara, Raul Tintaya Marcavillaca. Extending the proximal point algorithm beyond convexity. International Conference on Evolution in Pure and Applied Mathematics - ICEPAM-2022, Nov 2022, Bathinda, India. ⟨hal-04005138⟩
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