Open AccessA weighted gram-schmidt method for convex quadratic programming
Author(s) -
Philip E. Gill,
Nicholas I. M. Gould,
Walter Murray,
Michael A. Saunders,
Margaret H. Wright
Publication year - 1984
Publication title -
mathematical programming
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.358
H-Index - 131
eISSN - 1436-4646
pISSN - 0025-5610
DOI - 10.1007/bf02591884
Subject(s) - quadratic programming , mathematics , active set method , mathematical optimization , linear programming , quadratic equation , range (aeronautics) , simple (philosophy) , algorithm , nonlinear programming , philosophy , physics , geometry , materials science , epistemology , quantum mechanics , nonlinear system , composite material
Range-space methods for convex quadratic programming improve in efficiency as the number of constraints active at the solution decreases. In this paper we describe a range-space method based upon updating a weighted Gram-Schmidt factorization of the constraints in the active set. The updating methods described are applicable to both primal and dual quadratic programming algorithms that use an active-set strategy. Many quadratic programming problems include simple bounds on all the variables as well as general linear constraints. A feature of the proposed method is that it is able to exploit the structure of simple bound constraints. This allows the method to retain efficiency when the number ofgeneral constraints active at the solution is small. Furthermore, the efficiency of the method improves as the number of active bound constraints increases.
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