Robust integrated multi-mode scheduling of flexible loading and unloading operations with maintenance services in a port container terminal

IF 4.8 2区 环境科学与生态学 Q1 OCEANOGRAPHY Ocean & Coastal Management Pub Date : 2024-11-16 DOI:10.1016/j.ocecoaman.2024.107481
Behnam Vahdani , D. Veysmoradi , M. Basir Abyaneh , M. Rashedi
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Abstract

This study proposes an unparalleled integrated scheduling model for simultaneous loading, unloading, and maintenance operations in a port container terminal, wherein several heterogeneous handling equipment serve inbound and outbound vessels. In this regard, a multi-mode loading approach and the possibility of multiple allocations are also considered, wherein outbound vessels can be loaded by containers belonging to inbound vessels or the storage area. In addition, the proposed model covers all cases of equality and inequality in the number of inbound and outbound containers. More importantly, a flexible loading approach based on a class-based stowage plan is considered to better utilize equipment and increase the efficiency of the loading process. Additionally, since the timing of maintenance operations undoubtedly affects scheduling and entails miscellaneous uncertainties, a two-phase data-driven method is presented to estimate robust maintenance operation times. The first phase involves a hybrid machine learning strategy that combines the Savitzky–Golay Filter (SGF), the Takagi–Sugeno–Kang (TSK) fuzzy system, and minibatch gradient descent with regularization, DropRule, and AdaBound (MBGD-RDA) for the estimation of maintenance operation times. The second phase employs the distributionally robust optimization (DRO) technique that leverages φ-divergence to address the uncertainties associated with the estimated times. Finally, a case study is conducted to demonstrate the effectiveness and applicability of the proposed framework, accompanied by an examination of various simulation experiments. The results obtained indicate that the implementation of a flexible loading strategy can lead to a 24% reduction in the loading time of vessels.
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港口集装箱码头灵活装卸作业与维护服务的稳健综合多模式调度
本研究为港口集装箱码头的同步装卸和维护操作提出了一个无与伦比的综合调度模型,其中多个异构装卸设备为进出港船舶提供服务。在这方面,还考虑了多模式装载方法和多重分配的可能性,即出港船只可以装载属于进港船只或存储区的集装箱。此外,所提出的模型涵盖了进出港集装箱数量相等和不相等的所有情况。更重要的是,考虑了一种灵活的装载方法,该方法基于基于等级的积载计划,以更好地利用设备并提高装载过程的效率。此外,由于维护操作的时间无疑会影响调度并带来各种不确定性,因此提出了一种两阶段数据驱动方法来估算稳健的维护操作时间。第一阶段采用混合机器学习策略,结合萨维茨基-戈雷滤波器(SGF)、高木-菅野-康(TSK)模糊系统和带正则化、DropRule 和 AdaBound(MBGD-RDA)的小批量梯度下降法来估算维护作业时间。第二阶段采用分布稳健优化(DRO)技术,利用φ-发散来解决与估计时间相关的不确定性。最后,通过对各种模拟实验的检查,进行了一项案例研究,以证明拟议框架的有效性和适用性。结果表明,实施灵活的装载策略可使船舶装载时间缩短 24%。
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来源期刊
Ocean & Coastal Management
Ocean & Coastal Management 环境科学-海洋学
CiteScore
8.50
自引率
15.20%
发文量
321
审稿时长
60 days
期刊介绍: Ocean & Coastal Management is the leading international journal dedicated to the study of all aspects of ocean and coastal management from the global to local levels. We publish rigorously peer-reviewed manuscripts from all disciplines, and inter-/trans-disciplinary and co-designed research, but all submissions must make clear the relevance to management and/or governance issues relevant to the sustainable development and conservation of oceans and coasts. Comparative studies (from sub-national to trans-national cases, and other management / policy arenas) are encouraged, as are studies that critically assess current management practices and governance approaches. Submissions involving robust analysis, development of theory, and improvement of management practice are especially welcome.
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