模块化设计
运输工程
英里
最后一英里(运输)
汽车工程
计算机科学
工程类
地理
大地测量学
操作系统
作者
Shuai Zheng,Yugang Liu,Zhenpeng Zhou,Dan Shu,Xianke Han
标识
DOI:10.1109/tits.2025.3560313
摘要
As community logistics services and personal delivery demands grow rapidly, improving logistics efficiency has become a vital research focus. Considering the need for multi-partition joint distribution, we propose a solution utilizing modular autonomous vehicles (MAVs) that offer diverse transportation functions. First, we design a Passenger and Freight Collaborative Transportation System based on Modular Public Transportation Services (PFCTS-MPTS) and define the operation as a Multi-partition Pickup and Delivery Problem (MPPDP), which is modeled as a multi-objective mixed-integer nonlinear programming problem aimed at optimizing system operating costs and service efficiency. We propose a tailored heuristic framework consisting of three sequential algorithms to solve MPPDP, which can effectively address the impact of temporary demands on operation strategy and efficiently repair and optimize feasible solutions. A numerical study conducted in the Chengdu Baifo community demonstrated that the heuristic framework outperforms ALNS algorithms in solving MPPDP. Furthermore, by comparing it with benchmark strategies, we verified the advantages of PFCTS-MPTS in reducing operating costs and enhancing passenger and freight satisfaction. We also provided suggestions for operators on MAV type selection and order rule design based on sensitivity analysis to reduce operating costs.
科研通智能强力驱动
Strongly Powered by AbleSci AI