Generalized sensitivity analysis of nonlinear programs using a sequence of quadratic programs |
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| Authors: | Peter Stechlinski Johannes Jäschke Paul I Barton |
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| Institution: | 1. Department of Mathematics and Statistics, University of Maine, Orono, ME, United Statespeter.stechlinski@maine.edu;3. Department of Chemical Engineering, Norwegian University of Science and Technology (NTNU), Trondheim, Norway;4. Process Systems Engineering Laboratory, Massachusetts Institute of Technology, Cambridge, MA, United States |
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| Abstract: | ABSTRACTLocal sensitivity information is obtained for KKT points of parametric NLPs that may exhibit active set changes under parametric perturbations; under appropriate regularity conditions, computationally relevant generalized derivatives of primal and dual variable solutions of parametric NLPs are calculated. Ralph and Dempe obtained directional derivatives of solutions of parametric NLPs exhibiting active set changes from the unique solution of an auxiliary quadratic program. This article uses lexicographic directional derivatives, a newly developed tool in nonsmooth analysis, to generalize the classical NLP sensitivity analysis theory of Ralph and Dempe. By viewing said auxiliary quadratic program as a parametric NLP, the results of Ralph and Dempe are applied to furnish a sequence of coupled QPs, whose unique solutions yield generalized derivative information for the NLP. A practically implementable algorithm is provided. The theory developed here is motivated by widespread applications of nonlinear programming sensitivity analysis, such as in dynamic control and optimization problems. |
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| Keywords: | Sensitivity analysis nonsmooth analysis generalized derivatives B-subdifferential parametric optimization NLP KKT systems |
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