Branching and bounds tighteningtechniques for non-convex MINLP

Pietro Belotti; Jon Lee; Leo Liberti; François Margot; Andreas Wächter

doi:10.1080/10556780903087124

Branching and bounds tighteningtechniques for non-convex MINLP

Pietro Belotti
, Jon Lee
, Leo Liberti
, François Margot
, Andreas Wächter

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Many industrial problems can be naturally formulated using mixed integer non-linear programming (MINLP) models and can be solved by spatial BranchBound (sBB) techniques. We study the impact of two important parts of sBB methods: bounds tightening (BT) and branching strategies. We extend a branching technique originally developed for MILP, reliability branching, to the MINLP case. Motivated by the demand for open-source solvers for real-world MINLP problems, we have developed an sBB software package named couenne (Convex Over- and Under-ENvelopes for Non-linear Estimation) and used it for extensive tests on several combinations of BT and branching techniques on a set of publicly available and real-world MINLP instances. We also compare the performance of couenne with a state-of-the-art MINLP solver.

langue originale	Anglais
Pages (de - à)	597-634
Nombre de pages	38
journal	Optimization Methods and Software
Volume	24
Numéro de publication	4-5
Les DOIs	https://doi.org/10.1080/10556780903087124
état	Publié - 1 janv. 2009

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10.1080/10556780903087124

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abstract = "Many industrial problems can be naturally formulated using mixed integer non-linear programming (MINLP) models and can be solved by spatial BranchBound (sBB) techniques. We study the impact of two important parts of sBB methods: bounds tightening (BT) and branching strategies. We extend a branching technique originally developed for MILP, reliability branching, to the MINLP case. Motivated by the demand for open-source solvers for real-world MINLP problems, we have developed an sBB software package named couenne (Convex Over- and Under-ENvelopes for Non-linear Estimation) and used it for extensive tests on several combinations of BT and branching techniques on a set of publicly available and real-world MINLP instances. We also compare the performance of couenne with a state-of-the-art MINLP solver.",

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AU - Margot, François

AU - Wächter, Andreas

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AB - Many industrial problems can be naturally formulated using mixed integer non-linear programming (MINLP) models and can be solved by spatial BranchBound (sBB) techniques. We study the impact of two important parts of sBB methods: bounds tightening (BT) and branching strategies. We extend a branching technique originally developed for MILP, reliability branching, to the MINLP case. Motivated by the demand for open-source solvers for real-world MINLP problems, we have developed an sBB software package named couenne (Convex Over- and Under-ENvelopes for Non-linear Estimation) and used it for extensive tests on several combinations of BT and branching techniques on a set of publicly available and real-world MINLP instances. We also compare the performance of couenne with a state-of-the-art MINLP solver.

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Branching and bounds tighteningtechniques for non-convex MINLP

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