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Partial Benders Decomposition: General Methodology and Application to Stochastic Network Design

Teodor Gabriel Crainic, Mike Hewitt, Francesca Maggioni, Walter Rei

2020Transportation Science64 citationsDOI

Abstract

Benders decomposition is a broadly used exact solution method for stochastic programs, which has been increasingly applied to solve transportation and logistics planning problems under uncertainty. However, this strategy comes with important drawbacks, such as a weak master problem following the relaxation step that confines the dual cuts to the scenario subproblems. In this paper, we propose a partial Benders decomposition methodology, based on the idea of including explicit information from the scenario subproblems in the master. To investigate the benefits of this methodology, we apply it to solve a general class of two-stage stochastic multicommodity network design models. Specifically, we solve the challenging variant of the model where both the demands and the arc capacities are stochastic. Through an extensive experimental campaign, we clearly show that the proposed methodology yields significant benefits in computational efficiency, solution quality, and stability of the solution process.

Topics & Concepts

Benders' decompositionMathematical optimizationDecompositionNetwork planning and designComputer scienceStochastic programmingClass (philosophy)Dual (grammatical number)Decomposition method (queueing theory)Relaxation (psychology)Process (computing)MathematicsSocial psychologyArtificial intelligencePsychologyLiteratureBiologyOperating systemComputer networkArtEcologyDiscrete mathematicsOptimization and Mathematical ProgrammingTransportation Planning and OptimizationSupply Chain and Inventory Management
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