Bi-Objective Battery Electric Truck Dispatching Problem with Backhauls and Time Windows

Dongbo Peng, Guoyuan Wu, K. Boriboonsomsin
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Abstract

The battery electric truck (BET) has emerged as a promising solution to reduce greenhouse gas emissions in urban logistics, given the current strict environmental regulations. This research explores the formulation and solution of the bi-objective BET dispatching problem with backhauls and time windows, aiming to simultaneously reduce environmental impacts and enhance the efficiency of urban logistics. From the sustainability perspective, one of the objectives is to minimize total energy costs, which include energy consumption and battery replacement expenses. On the other hand, from an economic perspective, the other objective is the minimization of labor costs. To solve this bi-objective BET dispatching problem, we propose an innovative approach, integrating an adaptive large neighborhood search-based metaheuristics algorithm with a multi-objective optimization strategy. This integration enables the exploration of the trade-off between fleet energy expenses and labor costs, optimizing the dispatching decisions for BETs. To validate the proposed dispatching strategy, extensive experiments were conducted using real-world fleet operations data from a logistics fleet in Southern California. The results demonstrated that the proposed approach yields a set of Pareto solutions, showcasing its effectiveness in finding a balance between energy efficiency and labor costs in urban logistics systems. The findings of this research contribute to advancing sustainable urban logistics practices and provide valuable insights for fleet operators in effectively managing BET fleets to reduce environmental impacts while maintaining economic efficiency.
带回程和时间窗口的双目标电池电动卡车调度问题
鉴于当前严格的环境法规,电池电动卡车(BET)已成为城市物流中减少温室气体排放的一种有前途的解决方案。本研究探讨了带有回程和时间窗口的双目标 BET 调度问题的提出和解决方法,旨在同时减少对环境的影响和提高城市物流的效率。从可持续发展的角度来看,目标之一是最大限度地降低总能源成本,其中包括能源消耗和电池更换费用。另一方面,从经济角度来看,另一个目标是最大限度地降低劳动力成本。为了解决这个双目标 BET 调度问题,我们提出了一种创新方法,将基于大邻域搜索的自适应元启发式算法与多目标优化策略相结合。通过这种整合,可以探索车队能源支出和劳动力成本之间的权衡,优化 BET 的调度决策。为了验证所提出的调度策略,我们使用南加州物流车队的实际车队运营数据进行了大量实验。结果表明,所提出的方法产生了一组帕累托解决方案,展示了其在城市物流系统中寻求能源效率和劳动力成本之间平衡的有效性。这项研究成果有助于推进可持续城市物流实践,并为车队运营商有效管理 BET 车队提供了宝贵的见解,从而在保持经济效益的同时减少对环境的影响。
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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