Enhancing a Branch-and-Bound Algorithm for Two-Stage Stochastic Integer Network Design-Based Models
MANAGEMENT SCIENCE(2006)
摘要
In this paper we present branch-and-bound (B&B) strategies for two-stage stochastic integer network design-based models with integrality constraints in the first-stage variables. These strategies are used within L-shaped decomposition-based B&B framework. We propose a valid inequality in order to improve B&B performance. We use this inequality to implement a multirooted B&B tree. A selective use of optimality cuts is explored in the B&B approach and we also propose a subgradient-based technique for branching on 0-1 feasible solutions. Finally, we present computational results for a fixed-charge network design problem with random demands.
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关键词
design-based models,b tree,two-stage stochastic integer network,l-shaped decomposition-based b,b performance,b approach,b framework,branch-and-bound algorithm,fixed-charge network design problem,present branch-and-bound,multirooted b,selective use,branch and bound,network design,branch and bound algorithm,integrity constraints
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