站式还是自由浮动?一种具有双重服务类型的一体化拼车系统

IF 1.9 4区管理学 Q3 BUSINESS

Service Science Pub Date : 2022-11-30 DOI:10.1287/serv.2022.0312

Hua Ke, Yutong Mo

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引用次数: 0

摘要

大多数单向汽车共享运营商都采用了一种特定的服务类型，要么是基于站点的，要么是自由浮动的，这取决于用户是否需要在固定的停车场上下车。然而，它们都有固有的局限性。基于站点的共享汽车系统存在车位利用率低的缺点，而自由浮动的共享汽车系统需要面对较高的停车和搬迁成本。为了克服单一类型的汽车共享系统的局限性，本文提出了一种集成系统，将两种类型的汽车共享系统应用于服务区域的不同部分。考虑服务类型的战略决策和搬迁、行程选择的运营决策，建立了以运营商利润最大化为目标的混合整数线性规划模型。尽管该模型可以用CPLEX求解器求解，但在大规模情况下，它受到内存占用过大和求解时间过长的限制。为了提高模型的求解可行性，提出了一种启发式算法来有效地迭代可行策略选项并求解操作子问题。算例结果表明，该算法可以在较短的计算时间内达到与CPLEX求解器相当的目标。通过系统对比，与单站式或自由浮动式系统相比，综合系统实现了更大的利润和更高的需求完成率。历史:本文已被《服务科学》特刊《交通驱动城市服务创新》接受。

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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Station-Based or Free-Floating? An Integrated Carsharing System with Dual Service Types

A specific service type is applied by most one-way carsharing operators, either station-based or free-floating, which depends on whether users are required to pick up and return vehicles in fixed parking lots. However, both of them have inherent limitations. The station-based carsharing system encounters the weakness of low parking-space utilization, whereas the free-floating system needs to face high parking and relocation costs. To overcome the limitations of single-type carsharing systems, this paper proposes an integrated system to apply the two types in different parts of the service area. A mixed-integer linear-programming model is established to maximize the operator profit, considering both strategic decisions of service type and operational decisions of relocation and trip selection. Despite the fact that the model can be solved by the CPLEX solver, it is limited by excessive memory usage and too long solving time in large-scale cases. To enhance the solving feasibility of the proposed model, a heuristic algorithm is proposed to effectively iterate feasible strategic options and solve the operational subproblem. The numerical results of the case study show that the proposed algorithm can achieve comparable objectives with the CPLEX solver in a much shorter computational time. Through system comparison, the integrated system achieves a larger profit and higher demand-fulfillment rate, compared with the single station-based or free-floating system. History: This paper has been accepted for the Service Science Special Issue on Innovation in Transportation-Enabled Urban Services.

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来源期刊

Service Science Multiple-

CiteScore

3.30

自引率

4.30%

发文量

期刊介绍： Service Science publishes innovative and original papers on all topics related to service, including work that crosses traditional disciplinary boundaries. It is the primary forum for presenting new theories and new empirical results in the emerging, interdisciplinary science of service, incorporating research, education, and practice, documenting empirical, modeling, and theoretical studies of service and service systems. Topics covered include but are not limited to the following: Service Management, Operations, Engineering, Economics, Design, and Marketing Service System Analysis and Computational Simulation Service Theories and Research Methods Case Studies and Application Areas, such as healthcare, energy, finance, information technology, logistics, and public services.