Novel formulations and modeling enhancements for the dynamic berth allocation problem

•The dynamic berth allocation problem is tackled by exact methods.•Novel mathematical models are developed to solve the problem.•Modeling improvements and a variable-fixing procedure are proposed.•Instances from the literature are solved to optimality for the first time.•Numerical experiments on new...

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Bibliographic Details
Published in:European journal of operational research 2019-10, Vol.278 (1), p.170-185
Main Authors: Kramer, Arthur, Lalla-Ruiz, Eduardo, Iori, Manuel, Voß, Stefan
Format: Article
Language:English
Subjects:
Computer Science
Dynamic berth allocation problem
Modeling and Simulation
Modeling enhancements
Novel formulations
OR in maritime industry
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Summary:•The dynamic berth allocation problem is tackled by exact methods.•Novel mathematical models are developed to solve the problem.•Modeling improvements and a variable-fixing procedure are proposed.•Instances from the literature are solved to optimality for the first time.•Numerical experiments on new larger instances are reported. This paper addresses the well-known dynamic berth allocation problem (DBAP), which finds numerous applications at container terminals aiming to allocate and schedule incoming container vessels into berthing positions along the quay. Due to its impact on ports’ performance, having efficient DBAP formulations is of great importance, especially for determining optimal schedules in quick time as well as aiding managers and developers in the assessment of solution strategies and approximate approaches. In this work, we propose two novel formulations, a time-indexed formulation and an arc-flow one, to efficiently tackle the DBAP. Additionally, to improve computational performance, we propose problem-based modeling enhancements and a variable-fixing procedure that allows to discard some variables by considering their reduced costs. By means of these contributions, we improve the models’ performance for those instances where the optimal solutions were already known, and we solve to optimality for the first time other instances from the literature.
ISSN:0377-2217
1872-6860
DOI:10.1016/j.ejor.2019.03.036