An integrated quay crane - shuttle vehicle scheduling problem with apron buffer capacity constraints

IF 1 3区工程技术 Q4 ENGINEERING, CIVIL

Proceedings of the Institution of Civil Engineers-Maritime Engineering Pub Date : 2022-06-20 DOI:10.1680/jmaen.2021.007

Yucan Yin, Y. Ge, Xin Wen, M. Zhong

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引用次数: 2

Abstract

In container terminals equipped with shuttle vehicles, apron buffer zones are necessary for linking up the operations of quay cranes and shuttle vehicles. An integrated quay crane - shuttle vehicle scheduling problem with limited apron buffer capacity is investigated in this paper. This problem is subject to the practical constraints on nonzero traveling time, precedence relationships between container handling jobs, quay crane non-interference, safety margin, blocking, and apron buffer capacity constraint. The objective of this investigation is to minimize the makespan of vessel handling by simultaneous optimization of bay-to-quay crane assignment, the sequences of bays handled by quay cranes, the sequences of jobs handled by quay cranes, job-to-shuttle vehicle assignment and the sequences of jobs handled by shuttle vehicles. To achieve this, a mixed-integer linear programming model is first formulated to solve the scheduling problem. Second, the relationships of decision variables and model constraints are discussed to generate two sub-models: assignment-based and sequence-based. The assignment-based sub-model is developed from the proposed model by pre-determining the assignment of bay-to-quay cranes and job-to-shuttle vehicles, and the other is developed from the proposed model by pre-determining the sequences of jobs handled by each QC and each SV. Third, the hybrid genetic algorithms with the two sub-models are proposed. Fourth, numerical experiments show that the algorithms are competitive, compared to on-the-shelf solvers. Finally, practical implications of this investigation for apron buffer zone design are discussed.

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具有停机坪缓冲能力约束的码头起重机-穿梭车辆综合调度问题

在设有穿梭车的集装箱码头，必须设置停机坪缓冲区，以连接码头起重机和穿梭车的作业。研究了机坪缓冲能力有限的码头吊车-穿梭车综合调度问题。该问题受到非零行驶时间、集装箱装卸作业之间的优先关系、码头起重机不干扰、安全裕度、阻塞和停机坪缓冲能力约束等实际约束。本研究的目的是通过同时优化码头到码头的起重机分配、码头起重机处理的码头顺序、码头起重机处理的作业顺序、作业到穿梭车的分配和穿梭车处理的作业顺序，使船舶处理的最大完工时间最小化。为了实现这一目标，首先建立了一个混合整数线性规划模型来解决调度问题。其次，讨论了决策变量和模型约束之间的关系，生成了基于分配和基于序列的子模型。基于任务分配的子模型是在该模型的基础上，通过预先确定码头到码头的起重机和作业到穿梭车的分配，而基于任务分配的子模型是在该模型的基础上，通过预先确定每个QC和每个SV处理的作业顺序来发展的。第三，提出了两个子模型的混合遗传算法。第四，数值实验表明，与现成的求解器相比，该算法具有竞争力。最后，讨论了本研究对停机坪缓冲区设计的实际意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Proceedings of the Institution of Civil Engineers-Maritime Engineering 工程技术-工程：大洋

CiteScore

6.10

自引率

14.80%

发文量

审稿时长

>12 weeks

期刊介绍： Maritime Engineering publishes technical papers relevant to civil engineering in port, estuarine, coastal and offshore environments. Relevant to consulting, client and contracting engineers as well as researchers and academics, the journal focuses on safe and sustainable engineering in the salt-water environment and comprises papers regarding management, planning, design, analysis, construction, operation, maintenance and applied research. The journal publishes papers and articles from industry and academia that conveys advanced research that those developing, designing or constructing schemes can begin to apply, as well as papers on good practices that others can learn from and utilise.