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考虑泊位任务属性的海洋物流保障终端多目标可持续泊位与岸桥调度优化

Multi-objective sustainable berth and quay crane scheduling optimization considering berth task attributes in marine logistics support terminals

Journal of the Operational Research Society · 2026
被引 0
ABS 3

中文导读

针对海洋石油物流保障供应链,建立考虑泊位任务属性的多目标调度模型,用改进NSGA-II算法优化船舶延误、员工加班和资源利用平衡,实验显示比人工调度大幅改善。

Abstract

Efficient and sustainable scheduling of port terminals is critical for enhancing the environmental and operational performance of maritime logistics systems. This study aims to establish a multi-objective sustainable scheduling framework that simultaneously addresses vessel delays, employee overtime, and resource utilisation balance within the context of marine petroleum logistics support supply chains (MPLSSC), incorporating berth task attributes (BTA) that reflect real operational characteristics. A mixed-integer programming model is developed to optimise these three objectives, explicitly considering BTA such as task priority, mutual exclusion, and berth shifting relationships among vessels. To tackle the computational complexity, an improved Non-dominated Sorting Genetic Algorithm II (NSGA-II) is proposed to obtain high-quality Pareto-optimal solutions. Computational experiments based on real-world data from a logistics support terminal demonstrate the efficacy of the proposed approach. Compared to historical manual schedules, the enhanced NSGA-II achieves substantial improvements, optimising total vessel delay time, employee overtime, and resource utilisation balance by an average of 87.95%, 82.25%, and 17.02%, respectively. Moreover, it consistently outperforms traditional NSGA-II and the MOSA algorithm across various dataset scales. Furthermore, strategy analysis reveals that the first-come-first-served (FCFS) rule effectively mitigates overtime, while the earlier-departure-earlier-service (EDES) strategy reduces vessel delay risks. Uncertainties in task preparation time, berth shifting time, vessel arrival delays, and task execution speeds influence the sustainability of integrated berth and quay crane scheduling, with each parameter affecting the objective in distinct ways. This research enriches the literature on berth-quay crane scheduling optimisation (BQSO) by integrating sustainability and task-attribute considerations, offering practical managerial insights and decision-support tools for sustainable operations management in logistics support terminals.

港口调度可持续运营多目标优化物流保障终端岸桥调度