Lagrangian decomposition and mixed-integer quadratic programming reformulations for probabilistically constrained quadratic programs
► We consider quadratic programming problems with probabilistic constraint. ► We derive SOCP and SDP relaxations for such problem formulations. ► We give an improved mixed integer quadratic programming reformulation. ► This new MIQP reformulation is more efficient than the standard MIQP reformulatio...
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Veröffentlicht in: | European journal of operational research 2012-08, Vol.221 (1), p.38-48 |
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Sprache: | eng |
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Zusammenfassung: | ► We consider quadratic programming problems with probabilistic constraint. ► We derive SOCP and SDP relaxations for such problem formulations. ► We give an improved mixed integer quadratic programming reformulation. ► This new MIQP reformulation is more efficient than the standard MIQP reformulation.
Probabilistically constrained quadratic programming (PCQP) problems arise naturally from many real-world applications and have posed a great challenge in front of the optimization society for years due to the nonconvex and discrete nature of its feasible set. We consider in this paper a special case of PCQP where the random vector has a finite discrete distribution. We first derive second-order cone programming (SOCP) relaxation and semidefinite programming (SDP) relaxation for the problem via a new Lagrangian decomposition scheme. We then give a mixed integer quadratic programming (MIQP) reformulation of the PCQP and show that the continuous relaxation of the MIQP is exactly the SOCP relaxation. This new MIQP reformulation is more efficient than the standard MIQP reformulation in the sense that its continuous relaxation is tighter than or at least as tight as that of the standard MIQP. We report preliminary computational results to demonstrate the tightness of the new convex relaxations and the effectiveness of the new MIQP reformulation. |
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ISSN: | 0377-2217 1872-6860 |
DOI: | 10.1016/j.ejor.2012.03.006 |