论文信息 - Convergence Properties of a Regularization Scheme for Mathematical Programs with Complementarity Constraints

Convergence Properties of a Regularization Scheme for Mathematical Programs with Complementarity Constraints

We study the convergence behavior of a sequence of stationary points of a parametric NLP which regularizes a mathematical program with equilibrium constraints (MPEC) in the form of complementarity conditions. Accumulation points are feasible points of the MPEC; they are C-stationary if the MPEC linear independence constraint qualification holds; they are M-stationary if, in addition, an approaching subsequence satisfies second order necessary conditions, and they are B-stationary if, in addition, an upper level strict complementarity condition holds. These results complement recent results of Fukushima and Pang [Convergence of a smoothing continuation method for mathematical programs with equilibrium constraints, in Ill-posed Variational Problems and Regularization Techniques, Springer-Verlag, New York, 1999]. We further show that every local minimizer of the MPEC which satisfies the linear independence, upper level strict complementarity, and a second order optimality condition can be embedded into a locally unique piecewise smooth curve of local minimizers of the parametric NLP.

Stefan Scholtes | S. Scholtes

[1] Daniel Ralph,et al. Smooth SQP Methods for Mathematical Programs with Nonlinear Complementarity Constraints , 1999, SIAM J. Optim..

[2] Francisco Facchinei,et al. A smoothing method for mathematical programs with equilibrium constraints , 1999, Math. Program..

[3] J. V. Outrata,et al. Optimality conditions for a class of mathematical programs with equilibrium constraints: strongly regular case , 1999, Kybernetika.

[4] R. Fletcher. Practical Methods of Optimization , 1988 .

[5] M. Kojima. Strongly Stable Stationary Solutions in Nonlinear Programs. , 1980 .

[6] Michal Kočvara,et al. Nonsmooth approach to optimization problems with equilibrium constraints : theory, applications, and numerical results , 1998 .

[7] S. Scholtes,et al. Exact Penalization of Mathematical Programs with Equilibrium Constraints , 1999 .

[8] R. Fletcher,et al. Resolving degeneracy in quadratic programming , 1993, Ann. Oper. Res..

[9] Bethany L. Nicholson,et al. Mathematical Programs with Equilibrium Constraints , 2021, Pyomo — Optimization Modeling in Python.

[10] Stephen M. Robinson,et al. Strongly Regular Generalized Equations , 1980, Math. Oper. Res..

[11] Stefan Scholtes,et al. Mathematical Programs with Complementarity Constraints: Stationarity, Optimality, and Sensitivity , 2000, Math. Oper. Res..