Open AccessApproximate norm descent methods for constrained nonlinear systems
Author(s) -
Benedetta Morini,
Margherita Porcelli,
Philippe L. Toint
Publication year - 2017
Publication title -
mathematics of computation
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.95
H-Index - 103
eISSN - 1088-6842
pISSN - 0025-5718
DOI - 10.1090/mcom/3251
Subject(s) - jacobian matrix and determinant , mathematics , mathematical optimization , norm (philosophy) , nonlinear system , computation , convergence (economics) , descent (aeronautics) , descent direction , uniform norm , algorithm , computer science , gradient descent , physics , engineering , quantum mechanics , aerospace engineering , political science , law , economics , economic growth , machine learning , discrete mathematics , artificial neural network
We address the solution of convex-constrained nonlinear systems of equations where the Jacobian matrix is unavailable or its computation/storage is burdensome. In order to efficiently solve such problems, we propose a new class of algorithms which are “derivativefree” both in the computation of the search direction and in the selection of the steplength. Search directions comprise the residuals and Quasi-Newton directions while the steplength is determined by using a new linesearch strategy based on a nonmonotone approximate norm descent property of the merit function. We provide a theoretical analysis of the proposed algorithm and we discuss several conditions ensuring convergence to a solution of the constrained nonlinear system. Finally, we illustrate its numerical behaviour also in comparison with existing approaches.
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