Two-stage conflict robust optimization models for cross-dock truck scheduling problem under uncertainty

Xiang Xi; Liu Changchun; Wang Yuan; Lee Loo Hay

doi:10.1016/j.tre.2020.102123

Two-stage conflict robust optimization models for cross-dock truck scheduling problem under uncertainty

Xiang Xi, Liu Changchun, Wang Yuan^*, Lee Loo Hay

^*Corresponding author for this work

National University of Singapore

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

35 Citations (Scopus)

Abstract

This paper studies the cross-dock truck scheduling problem, which considers the uncertainty of trucks’ arrival and operational times. We introduce a concept named conflict and present a two-stage optimization model, aiming at minimizing the total cost and number of conflicts. Furthermore, an extended model by introducing K-means clustering is presented, for which the performance guarantees are provided to validate its efficiency. A column and constraint generation algorithm, which is proved to converge in a finite number of iterations, is designed to solve the developed models. Extensive numerical experiments are conducted to validate the performance of the developed models and algorithm.

Original language	English
Article number	102123
Journal	Transportation Research Part E: Logistics and Transportation Review
Volume	144
DOIs	https://doi.org/10.1016/j.tre.2020.102123
Publication status	Published - Dec 2020
Externally published	Yes

Keywords

Cross-dock
Exact algorithm
Truck scheduling problem
Two-stage robust model

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Xi, X., Changchun, L., Yuan, W., & Loo Hay, L. (2020). Two-stage conflict robust optimization models for cross-dock truck scheduling problem under uncertainty. Transportation Research Part E: Logistics and Transportation Review, 144, Article 102123. https://doi.org/10.1016/j.tre.2020.102123

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abstract = "This paper studies the cross-dock truck scheduling problem, which considers the uncertainty of trucks{\textquoteright} arrival and operational times. We introduce a concept named conflict and present a two-stage optimization model, aiming at minimizing the total cost and number of conflicts. Furthermore, an extended model by introducing K-means clustering is presented, for which the performance guarantees are provided to validate its efficiency. A column and constraint generation algorithm, which is proved to converge in a finite number of iterations, is designed to solve the developed models. Extensive numerical experiments are conducted to validate the performance of the developed models and algorithm.",

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author = "Xiang Xi and Liu Changchun and Wang Yuan and {Loo Hay}, Lee",

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AU - Changchun, Liu

AU - Yuan, Wang

AU - Loo Hay, Lee

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Y1 - 2020/12

N2 - This paper studies the cross-dock truck scheduling problem, which considers the uncertainty of trucks’ arrival and operational times. We introduce a concept named conflict and present a two-stage optimization model, aiming at minimizing the total cost and number of conflicts. Furthermore, an extended model by introducing K-means clustering is presented, for which the performance guarantees are provided to validate its efficiency. A column and constraint generation algorithm, which is proved to converge in a finite number of iterations, is designed to solve the developed models. Extensive numerical experiments are conducted to validate the performance of the developed models and algorithm.

AB - This paper studies the cross-dock truck scheduling problem, which considers the uncertainty of trucks’ arrival and operational times. We introduce a concept named conflict and present a two-stage optimization model, aiming at minimizing the total cost and number of conflicts. Furthermore, an extended model by introducing K-means clustering is presented, for which the performance guarantees are provided to validate its efficiency. A column and constraint generation algorithm, which is proved to converge in a finite number of iterations, is designed to solve the developed models. Extensive numerical experiments are conducted to validate the performance of the developed models and algorithm.

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ER -

Two-stage conflict robust optimization models for cross-dock truck scheduling problem under uncertainty

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Keywords

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