论文信息 - The relation between pseudonormality and quasiregularity in constrained optimization

The relation between pseudonormality and quasiregularity in constrained optimization

We consider optimization problems with equality, inequality, and abstract set constraints. We investigate the relations between various characteristics of the constraint set related to the existence of Lagrange multipliers. For problems with no abstract set constraint, the classical condition of quasiregularity provides the connecting link between the most common constraint qualifications and existence of Lagrange multipliers. In earlier work, we introduced a new and general condition, pseudonormality, that is central within the theory of constraint qualifications, exact penalty functions, and existence of Lagrange multipliers. In this paper, we explore the relations between pseudonormality, quasiregularity, and existence of Lagrange multipliers, and show that, unlike pseudonormality, quasiregularity cannot play the role of a general constraint qualification in the presence of an abstract set constraint. In particular, under a regularity assumption on the abstract constraint set, we show that pseudonormality implies quasiregularity. However, contrary to pseudonormality, quasiregularity does not imply the existence of Lagrange multipliers, except under additional assumptions.

Asuman E. Ozdaglar | Dimitri P. Bertsekas | A. Ozdaglar | D. Bertsekas

[1] W. Fenchel. Convex cones, sets, and functions , 1953 .

[2] J. Abadie. ON THE KUHN-TUCKER THEOREM. , 1966 .

[3] M. Guignard. Generalized Kuhn–Tucker Conditions for Mathematical Programming Problems in a Banach Space , 1969 .

[4] F. J. Gould,et al. A NECESSARY AND SUFFICIENT QUALIFICATION FOR CONSTRAINED OPTIMIZATION , 1971 .

[5] F. J. Gould,et al. Geometry of optimality conditions and constraint qualifications , 1972, Math. Program..

[6] B. Mordukhovich. Maximum principle in the problem of time optimal response with nonsmooth constraints PMM vol. 40, n≗ 6, 1976, pp. 1014-1023 , 1976 .

[7] 丸山徹. Convex Analysisの二,三の進展について , 1977 .

[8] R. J. Paul,et al. Optimization Theory: The Finite Dimensional Case , 1977 .

[9] M. Bazaraa,et al. Sufficient conditions for a globally exact penalty function without convexity , 1982 .

[10] Mokhtar S. Bazaraa,et al. Nonlinear Programming: Theory and Algorithms , 1993 .

[11] R. Tyrrell Rockafellar,et al. Lagrange Multipliers and Optimality , 1993, SIAM Rev..

[12] Adrian S. Lewis,et al. Convex Analysis And Nonlinear Optimization , 2000 .

[13] Asuman E Ozdaglar,et al. Pseudonormality and a Lagrange Multiplier Theory for Constrained Optimization , 2002 .

[14] Zdzisław Denkowski,et al. Set-Valued Analysis , 2021 .

[15] A. Banerjee. Convex Analysis and Optimization , 2006 .

[16] K. Schittkowski,et al. NONLINEAR PROGRAMMING , 2022 .