考虑自取服务和门到门服务的电动汽车物流网络优化策略研究

doi:10.16381/j.cnki.issn1003-207x.2019.0044

Abstract

Abstract: With the development of environment awareness and substantial government support, the electric vehicles get rapid development in the field of logistics. Due to the scattered customers, the complex traffic situation in the city and many uncertainties in the service process, the cost of “last mile” delivery service remain high. An electric vehicle routing and station location problem is present under the diversified service strategies. Setting up service stations in the area with dense customers, and the customers in the service scope of the opened station should go to the station to pick up their goods by themselves. The rest wait for door-to-door delivery service. In addition, based on some practical considerations, it is required that the vehicles that are replenished for the service stations cannot provide distribution services for customer nodes at the same time. With diversified service strategies combining customer self-picking (within service radius) and home delivery service (outside service radius), and the mathematical model of integer programming is established, which can help to improve the service efficiency and decrease operational cost. The above strategies can not only help logistics enterprises improve the utilization rate of delivery time and reduce operating costs, but also meet the personalized requirements of customers on the delivery time and improve the level of customer satisfaction. The problem is formulated as an integer programming model. Electric logistics vehicles can be recharged at service stations, where customers can pick-up their parcels. The objective function minimizes the total cost including the construction cost of service stations, and the total of travel costs for the customer and the service station routes.

Key words: electric vehicles; location-routing problem; hybrid heuristic algorithm; diversified service strategy; radius cover concept

CLC Number:

U116.2
O221

GUO Fang, HUANG Zhi-hong, HUANG Wei-lai, YANG Chao. Optimal Planning of the Electric Vehicle Routing and Battery Charging Problem with Self-pickup and Door-to-door Delivery Service[J]. Chinese Journal of Management Science, 2022, 30(2): 264-275.

References

［1］ Krajewska M A, Kopfer H. Transportation planning in freight forwarding companies: Tabu search algorithm for the integrated operational transportation planning problem［J］. European Journal of Operational Research, 2009, 197(2): 741-751.
［2］ Veenstra M, Roodbergen K J, Coelho L C, et al. A simultaneous facility location and vehicle routing problem arising in health care logistics in the Netherlands［J］. European Journal of Operational Research, 2018, 268(2): 703-715.
［3］ Drexl M, Schneider M. A survey of variants and extensions of the location-routing problem［J］. European Journal of Operational Research, 2015, 241(2):283-308.
［4］ Karaoglan I, Altiparmak F, Kara I, et al. The location-routing problem with simultaneous pickup and delivery: Formulations and a heuristic approach［J］. Omega, 2012, 40(4):465-477.
［5］ Escobar J W, Linfati R, Baldoquin M G, et al. A Granular Variable Tabu Neighborhood Search for the capacitated location-routing problem［J］. Transportation Research Part B Methodological, 2014, 67(9):344-356.
［6］陈义友, 张锦, 罗建强. 顾客选择行为对自提点选址的影响研究［J］. 中国管理科学, 2017, 25(5): 135-144.Chen Yiyou, Zhang Jin, Luo Jianqiang. The impact of customers’ choice behavior on pickup point location［J］. Chinese Journal of Management Science, 2017, 25(5): 135-144.
［7］符卓, 刘文, 邱萌. 带软时间窗的需求依订单拆分车辆路径问题及其禁忌搜索算法［J］. 中国管理科学, 2017, 25(5): 78-86.Fu Zhuo, Liu Wen, Qiu Meng. A tabu search algorithm for the vehicle routing problem with soft time windows and split deliveries by order［J］. Chinese Journal of Management Science, 2017, 25(5): 78-86.
［8］ Stenger A, Schneider M, Schwind M, et al. Location routing for small package shippers with subcontracting options［J］. International Journal of Production Economics, 2010, 140(2):702-712.
［9］ Salari M， Naji-Azimi Z. An integer programming-based local search for the covering salesman problem［J］. Computers & Operations Research， 2012， 39(11): 2594-2602.
［10］ Hachicha M， Hodgson M J， Laporte G，et al. Heuristics for the multi-vehicle covering tour problem［J］. Computers & Operations Research， 2000， 27(1): 29-42.
［11］ Ha M H， Bostel N， Langevin A， et al. An exact algorithm and a metaheuristic for the multi-vehicle covering tour problem with a constraint on the number of vertices［J］. European Journal of Operational Research， 2013， 226(2): 211-220.
［12］ Naji-Azimi Z, Renaud J, Ruiz A, et al. A covering tour approach to the location of satellite distribution centers to supply humanitarian aid［J］. European Journal of Operational Research, 2012, 222(3):596-605.
［13］ Schneider M， Stenger A， Goeke D. The electric vehicle-routing problem with time windows and recharging stations［J］. Transportation Science， 2014， 48(4): 500-520.
［14］ Schneider M， Stenger A， Hof J. An adaptive VNS algorithm for vehicle routing problems with intermediate stops［J］. OR Spectrum， 2015， 37(2): 353-387.
［15］郭放, 杨珺, 杨超. 考虑充电策略与电池损耗的电动汽车路径优化问题研究［J］. 中国管理科学, 2018, 26(9): 106-118.Guo Fang, Yang Jun, Yang Chao. Study on the electric vehicle routing problem in the present of charging strategy and battery consumption［J］. Chinese Journal of Management Science, 2018, 26(9): 106-118.
［16］ Li Ying, Zhang Pengwei, Wu Yifan. Public recharging infrastructure location strategy for promoting electric vehicles: A bi-level programming approach［J］. Journal of Cleaner Production, 2018, 172: 2720-2734.
［17］郭放, 杨珺, 杨超. 考虑差异化服务时间的多车型电动汽车路径优化与充电策略研究［J］. 中国管理科学, 2019, 27(8): 118-128.Guo Fang, Yang Jun, Yang Chao. Study on heterogeneous electric vehicle routing and battery charging problem with the consideration of differentiated service cost［J］. Chinese Journal of Management Science, 2019, 27(8): 118-128.
［18］ Niu Yunyun, Yang Zehua, Chen Ping, et al. Optimizing the green open vehicle routing problem with time windows by minimizing comprehensive routing cost［J］. Journal of Cleaner Production, 2018, 171: 962-971.
［19］ Keskin M. Partial recharge strategies for the electric vehicle routing problem with time windows［J］. Transportation Research Part C: Emerging Technologies， 2016， 65: 111-127.
［20］ Koc C， Bektas T， Jabali O， et al. The fleet size and mix location-routing problem with time windows: Formulations and a heuristic algorithm［J］. European Journal of Operational Research， 2016， 248(1): 33-51.
［21］ Desaulniers G, Errico F, Irnich S, et al. Exact Algorithms for Electric Vehicle-Routing Problems with Time Windows.［J］. Operations Research, 2016, 64:págs. 1388-1405.
［22］ Gimenezgaydou D A, Ribeiro A S N, Gutierrez J, et al. Optimal location of battery electric vehicle charging stations in urban areas: A new approach［J］. International Journal of Sustainable Transportation, 2016, 10(5): 393-405..
［23］ Augerat P， Belenguer J M， Benavent E， et al. Computational results with a branch and cut code for the capacitated vehicle routing problem［J］. Rapport de recherche- IMAG，1995.
［24］ Rinaldi G， Yarrow L A. Optimizing a 48-city traveling salesman problem: A case study in combinatorial problem solving［M］. New York University， Graduate School of Business Administration，1985.
［25］ Taillard é. Parallel iterative search methods for vehicle routing problems［J］. Networks, 1993, 23(8): 661-673.

[1]	GUO Fang, YANG Jun, YANG Chao. Study on Heterogeneous Electric Vehicle Routing and Batterycharging Problem with the Consideration of Differentiated Service Cost [J]. Chinese Journal of Management Science, 2019, 27(8): 118-128.
[2]	GUO Fang, YANG Jun, YANG Chao. Study on the Electric Vehicle Routing Problem in the Present of Charging Strategy and Battery Consumption [J]. Chinese Journal of Management Science, 2018, 26(9): 106-118.
[3]	PAN Wen-wen, GUO Hai-xiang, DU Tian-song, LIU Xiao, WANG De-yun. The Vehicle Routing Problem with the Recycling of Oil Pipelines and Oil Casings and the Differential Evolution Algorithm based on Niching Clearing [J]. Chinese Journal of Management Science, 2018, 26(5): 118-128.
[4]	YU Ming-zhu, LI Jian-bin, LEI Dong. The Research of VRP with Pick-up and Delivery and a New Tabu Search Based on Insertion Method [J]. Chinese Journal of Management Science, 2010, 18(2): 89-95.
[5]	WEI Hang. Hazardous Materials Transportation Path Problem in Stochastic, Time-varying Network with Constrain of Time Windows [J]. Chinese Journal of Management Science, 2009, 17(3): 93-100.
[6]	WEI Hang, LI Jun, LIU Ning-zi. An Algorithm for Shortest Path with Multi-Modal in Time-Varying Network [J]. Chinese Journal of Management Science, 2006, (4): 56-63.
[7]	MU Xiang-wei, CHEN Yan, GAO Shu-juan, YAO Si-yu. Vehicleand Cargo Matching Method Based on Improved Quantum Evolutionary Algorithm [J]. Chinese Journal of Management Science, 2016, 24(12): 166-176.

Optimal Planning of the Electric Vehicle Routing and Battery Charging Problem with Self-pickup and Door-to-door Delivery Service

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