An analytical framework for modeling ride pooling efficiency and minimum fleet size

Steffen Mühle
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引用次数: 6

Abstract

Ride pooling (RP) is a transport mode using on-demand buses to combine the trips of multiple users into one vehicle. Its required fleet size and carbon emissions are quantified by the system’s efficiency. Due to the complex interplay between street network, buses, users and dispatch algorithm, efficiency case studies are available but bottom-up predictions are not. Here we close this gap using probabilistic and geometric arguments in an analytical model framework. Its modular design allows for adaptation to specific usage scenarios and provides an over-arching view of them. In a showcase on Euclidean spaces, our model quantifies how RP outperforms private cars as user demand increases. Its predicted power-law scaling is verified using a custom simulation framework, which further reveals improved scaling on real street networks and graphs with hierarchical structures. Henceforth, our work may help to identify street networks well-suited for RP, and predict key performance indicators analytically.

拼车效率和最小车队规模建模的分析框架
拼车(RP)是一种使用按需公交车将多个用户的行程合并为一辆车的交通模式。其所需的车队规模和碳排放量通过系统的效率进行量化。由于街道网络、公交车、用户和调度算法之间的复杂相互作用,可以进行效率案例研究,但不能进行自下而上的预测。在这里,我们在分析模型框架中使用概率和几何参数来缩小这一差距。它的模块化设计允许适应特定的使用场景,并提供了它们的总体视图。在欧几里得空间的展示中,我们的模型量化了随着用户需求的增加,RP如何优于私家车。使用自定义仿真框架验证了其预测的幂律缩放,进一步揭示了在真实街道网络和具有分层结构的图上改进的缩放。今后,我们的工作可能有助于确定非常适合RP的街道网络,并分析预测关键性能指标。
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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