Train assignment and handling capacity arrangement in multi-yard railway container terminals: An enhanced adaptive large neighborhood search heuristic approach

IF 6.7 1区 工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Computers & Industrial Engineering Pub Date : 2024-11-10 DOI:10.1016/j.cie.2024.110733
Tian Xia , Li Wang , Wenqian Liu , Qin Zhang , Jing-Xin Dong , Xiaoning Zhu
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Abstract

Expanding terminal scale and constructing multiple railway handling yards have become popular strategies for leading railway container terminals globally to cope with the ever-increasing handling volume. Although such an approach greatly enhances the terminal’s productivity, it also intensifies handling operations and introduces additional inter-yard interactions, complicating terminal management. To address these challenges, this paper investigates an integrated optimization approach for multi-yard railway container terminals, which feature both rail-road and rail-rail container transshipment operations. The train assignment plan for each yard and the handling capacity arrangement for each train are jointly optimized while considering inter-yard container transits, workload allocation for yards, and safety requirements in train shunting. This problem is formulated as a nonlinear programming model, with the objective to minimize operational delay and service time for each incoming train, and to minimize workload differences and container transit volume among yards. To efficiently solve this problem, this research develops an enhanced adaptive large neighborhood search (EALNS) heuristic, which includes several customized operators and feasibility repair methods, and is further enhanced with a local search method and backtracking mechanism compared to the standard ALNS framework. Computational experiments with different data scales and problem settings demonstrate the superiority of the EALNS in terms of solution quality and stability compared with three other solution methods. Additionally, practical insights for terminal operations are drawn through detailed analysis of different infrastructure configurations, transshipment train characteristics, and unit cost settings.
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多货场铁路集装箱码头的列车分配和装卸能力安排:增强型自适应大邻域搜索启发式方法
扩大码头规模和建设多个铁路装卸场已成为全球主要铁路集装箱码头应对日益增长的装卸量的常用策略。虽然这种方法大大提高了码头的生产率,但同时也加剧了装卸作业,并引入了额外的堆场间互动,使码头管理变得更加复杂。为了应对这些挑战,本文研究了一种针对多堆场铁路集装箱码头的综合优化方法,这种码头同时具有铁路-公路和铁路-铁路集装箱转运业务。在考虑堆场间集装箱转运、堆场工作量分配和列车调车安全要求的同时,对每个堆场的列车分配计划和每列列车的装卸能力安排进行联合优化。该问题被表述为一个非线性编程模型,目标是最大限度地减少每列进站列车的运行延迟和服务时间,并最大限度地减少堆场间的工作量差异和集装箱转运量。为了有效解决这一问题,本研究开发了一种增强型自适应大邻域搜索(EALNS)启发式,其中包括几种定制算子和可行性修复方法,并在标准 ALNS 框架的基础上进一步增强了局部搜索方法和回溯机制。不同数据规模和问题设置的计算实验证明,与其他三种求解方法相比,EALNS 在求解质量和稳定性方面更具优势。此外,通过对不同基础设施配置、转运列车特征和单位成本设置的详细分析,还得出了码头运营的实用见解。
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来源期刊
Computers & Industrial Engineering
Computers & Industrial Engineering 工程技术-工程:工业
CiteScore
12.70
自引率
12.70%
发文量
794
审稿时长
10.6 months
期刊介绍: Computers & Industrial Engineering (CAIE) is dedicated to researchers, educators, and practitioners in industrial engineering and related fields. Pioneering the integration of computers in research, education, and practice, industrial engineering has evolved to make computers and electronic communication integral to its domain. CAIE publishes original contributions focusing on the development of novel computerized methodologies to address industrial engineering problems. It also highlights the applications of these methodologies to issues within the broader industrial engineering and associated communities. The journal actively encourages submissions that push the boundaries of fundamental theories and concepts in industrial engineering techniques.
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