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Main Authors: Abdolhamidi, Dorsa, Juvin, Carla, Lurkin, Virginie
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2407.02339
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author Abdolhamidi, Dorsa
Juvin, Carla
Lurkin, Virginie
author_facet Abdolhamidi, Dorsa
Juvin, Carla
Lurkin, Virginie
contents This paper develops an exact solution framework for the choice-based time slot management problem under mixed logit demand in attended home delivery systems. The problem jointly optimizes delivery slot offerings, price discounts, and routing decisions, with customer choices endogenously modeled through a simulation-based mixed logit formulation embedded via sample average approximation, resulting in a large-scale stochastic mixed-integer program. To address this complexity, we propose a logic-based Benders decomposition (LBBD) that separates strategic assortment and pricing decisions, together with customer choice, from scenario-specific vehicle routing subproblems. We derive problem-specific optimality cuts that exploit the routing structure to provide stronger bounds than generic cuts, and establish their validity. To enhance computational performance, we introduce and systematically evaluate several strengthening strategies, including relaxation-based cut generation and capacity- and flow-based valid inequalities. Computational experiments on benchmark instances show that the proposed framework significantly extends the range of solvable instances compared to direct MILP approaches. The method yields proven optimal solutions for instances with up to 10 customers and consistently tight optimality gaps for instances with 15-20 customers. For larger instances, the approach provides meaningful upper bounds, while remaining computationally challenging for larger problem sizes. Overall, the results highlight the interaction between stochastic choice modeling, routing complexity, and decomposition design, and demonstrate the potential of LBBD for solving integrated choice-based optimization problems.
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publishDate 2024
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spellingShingle Logic-Based Benders Decomposition for Time Slot Management with Mixed Logit Demand
Abdolhamidi, Dorsa
Juvin, Carla
Lurkin, Virginie
Optimization and Control
This paper develops an exact solution framework for the choice-based time slot management problem under mixed logit demand in attended home delivery systems. The problem jointly optimizes delivery slot offerings, price discounts, and routing decisions, with customer choices endogenously modeled through a simulation-based mixed logit formulation embedded via sample average approximation, resulting in a large-scale stochastic mixed-integer program. To address this complexity, we propose a logic-based Benders decomposition (LBBD) that separates strategic assortment and pricing decisions, together with customer choice, from scenario-specific vehicle routing subproblems. We derive problem-specific optimality cuts that exploit the routing structure to provide stronger bounds than generic cuts, and establish their validity. To enhance computational performance, we introduce and systematically evaluate several strengthening strategies, including relaxation-based cut generation and capacity- and flow-based valid inequalities. Computational experiments on benchmark instances show that the proposed framework significantly extends the range of solvable instances compared to direct MILP approaches. The method yields proven optimal solutions for instances with up to 10 customers and consistently tight optimality gaps for instances with 15-20 customers. For larger instances, the approach provides meaningful upper bounds, while remaining computationally challenging for larger problem sizes. Overall, the results highlight the interaction between stochastic choice modeling, routing complexity, and decomposition design, and demonstrate the potential of LBBD for solving integrated choice-based optimization problems.
title Logic-Based Benders Decomposition for Time Slot Management with Mixed Logit Demand
topic Optimization and Control
url https://arxiv.org/abs/2407.02339