基于无桩共享单车系统的自行车流动链自循环分析:来自上海的经验证据

IF 3.5 2区 工程技术 Q1 ENGINEERING, CIVIL Transportation Pub Date : 2024-06-05 DOI:10.1007/s11116-024-10500-w
Yancun Song, Li Zhang, Kang Luo, Chenyan Wang, Chengcheng Yu, Yonggang Shen, Qing Yu
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引用次数: 0

摘要

自循环是共享单车系统在日常运营中观察到的一种独特现象,其特点是单车在单车流动链中行驶数次后会返回其原始起点。自行车流动链概念涉及以最小的车队规模形成新的自行车链。通过了解自循环行为,我们可以优化车队管理,降低运营成本。本研究以中国上海的无桩共享单车系统为例,在考虑潜在需求的同时,专门研究了自行车流动链中的自循环行为。利用先进的多重删减 Tobit 模型,将潜在需求纳入出发地-目的地(O-D)数据,并重建自行车流动链。分析了基于土地利用和地理位置的自循环链的形成机制。我们的模型 R2 为 0.871,明显优于基线模型。结果表明,76% 的自行车链可在两周内形成自循环。校园区域的自循环率最高,而郊区校园只需极少或无需调度即可维持运营。这项研究不仅揭示了前后行为,还为调度和部署策略提供了启示,以提高共享单车系统的环境可持续性。
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Self-loop analysis based on dockless bike-sharing system via bike mobility chain: empirical evidence from Shanghai

Self-loop is a unique phenomenon observed in the daily operations of bike-sharing systems, characterized by bike returning to its original starting point after several trips within the bike mobility chain. The bike mobility chain concept involves forming new bike chains with a minimal fleet size. By understanding self-loop behavior, we can optimize fleet management and reduce operational costs. This study specifically investigates the self-loop behavior within the bike mobility chain while considering potential demand, using the case of the dockless bike-sharing system in Shanghai, China. An advanced multiply censored Tobit model is utilized to incorporate potential demand into origin–destination (O–D) data and reconstruct the bike mobility chain. The formation mechanisms of self-loop chains based on the land use and geographic location are analyzed. Our model achieved an R2 of 0.871, significantly outperforming the baseline model. The results indicate that 76% of the bike chains can form self-loops within a 2-week period. Campus areas exhibit the highest self-loop rates, while suburban campuses can sustain operations with minimal or no scheduling required. This study not only reveals the back-and-forth behavior but also provides insights for scheduling and deployment strategies to enhance the environmental sustainability of bike-sharing systems.

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来源期刊
Transportation
Transportation 工程技术-工程:土木
CiteScore
10.70
自引率
4.70%
发文量
94
审稿时长
6-12 weeks
期刊介绍: In our first issue, published in 1972, we explained that this Journal is intended to promote the free and vigorous exchange of ideas and experience among the worldwide community actively concerned with transportation policy, planning and practice. That continues to be our mission, with a clear focus on topics concerned with research and practice in transportation policy and planning, around the world. These four words, policy and planning, research and practice are our key words. While we have a particular focus on transportation policy analysis and travel behaviour in the context of ground transportation, we willingly consider all good quality papers that are highly relevant to transportation policy, planning and practice with a clear focus on innovation, on extending the international pool of knowledge and understanding. Our interest is not only with transportation policies - and systems and services – but also with their social, economic and environmental impacts, However, papers about the application of established procedures to, or the development of plans or policies for, specific locations are unlikely to prove acceptable unless they report experience which will be of real benefit those working elsewhere. Papers concerned with the engineering, safety and operational management of transportation systems are outside our scope.
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