Convex quadratic relaxations for mixed-integer nonlinear programs in power systems

Hassan Hijazi; Carleton Coffrin; Pascal Van Hentenryck

doi:10.1007/s12532-016-0112-z

Convex quadratic relaxations for mixed-integer nonlinear programs in power systems

Hassan Hijazi, Carleton Coffrin, Pascal Van Hentenryck^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

133 Citations (Scopus)

Abstract

This paper presents a set of new convex quadratic relaxations for nonlinear and mixed-integer nonlinear programs arising in power systems. The considered models are motivated by hybrid discrete/continuous applications where existing approximations do not provide optimality guarantees. The new relaxations offer computational efficiency along with minimal optimality gaps, providing an interesting alternative to state-of-the-art semidefinite programming relaxations. Three case studies in optimal power flow, optimal transmission switching and capacitor placement demonstrate the benefits of the new relaxations.

Original language	English
Pages (from-to)	321-367
Number of pages	47
Journal	Mathematical Programming Computation
Volume	9
Issue number	3
DOIs	https://doi.org/10.1007/s12532-016-0112-z
Publication status	Published - 1 Sept 2017

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title = "Convex quadratic relaxations for mixed-integer nonlinear programs in power systems",

abstract = "This paper presents a set of new convex quadratic relaxations for nonlinear and mixed-integer nonlinear programs arising in power systems. The considered models are motivated by hybrid discrete/continuous applications where existing approximations do not provide optimality guarantees. The new relaxations offer computational efficiency along with minimal optimality gaps, providing an interesting alternative to state-of-the-art semidefinite programming relaxations. Three case studies in optimal power flow, optimal transmission switching and capacitor placement demonstrate the benefits of the new relaxations.",

keywords = "Capacitor placement, Convex relaxation, Global optimization, Mixed-integer nonlinear programming, Optimal power flow, Optimal transmission switching",

author = "Hassan Hijazi and Carleton Coffrin and Hentenryck, \{Pascal Van\}",

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AU - Hentenryck, Pascal Van

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N2 - This paper presents a set of new convex quadratic relaxations for nonlinear and mixed-integer nonlinear programs arising in power systems. The considered models are motivated by hybrid discrete/continuous applications where existing approximations do not provide optimality guarantees. The new relaxations offer computational efficiency along with minimal optimality gaps, providing an interesting alternative to state-of-the-art semidefinite programming relaxations. Three case studies in optimal power flow, optimal transmission switching and capacitor placement demonstrate the benefits of the new relaxations.

AB - This paper presents a set of new convex quadratic relaxations for nonlinear and mixed-integer nonlinear programs arising in power systems. The considered models are motivated by hybrid discrete/continuous applications where existing approximations do not provide optimality guarantees. The new relaxations offer computational efficiency along with minimal optimality gaps, providing an interesting alternative to state-of-the-art semidefinite programming relaxations. Three case studies in optimal power flow, optimal transmission switching and capacitor placement demonstrate the benefits of the new relaxations.

KW - Capacitor placement

KW - Convex relaxation

KW - Global optimization

KW - Mixed-integer nonlinear programming

KW - Optimal power flow

KW - Optimal transmission switching

UR - https://www.scopus.com/pages/publications/85026811431

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VL - 9

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EP - 367

JO - Mathematical Programming Computation

JF - Mathematical Programming Computation

IS - 3

ER -

Convex quadratic relaxations for mixed-integer nonlinear programs in power systems

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