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Pablo M. Berná, Antonio Falcó, Universality for non-linear convex variational problems

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DOI: 10.23952/jnva.9.2025.2.01

Volume 9, Issue 2, 1 April 2025, Pages 161-177

 

Abstract. This paper introduces an innovative mathematical framework designed to tackle non-linear convex variational problems in reflexive Banach spaces. Our approach employs a versatile technique that can handle a broad range of variational problems, including standard ones. To carry out the process effectively, we utilize specialized sets known as radial dictionaries, where these dictionaries encompass diverse data types, such as tensors in Tucker format with bounded rank and Neural Networks with fixed architecture and bounded parameters. The core of our method lies in employing a greedy algorithm through dictionary optimization defined by a multivalued map. Significantly, our analysis shows that the convergence rate achieved by our approach is comparable to the Method of Steepest Descend implemented in a reflexive Banach space, where the convergence rate follows the order of O(m^{-1}).

 

How to Cite this Article:
P.M. Berná, A. Falcó, Universality for non-linear convex variational problems, J. Nonlinear Var. Anal. 9 (2025), 161-177.