Maximizing access in transit network design

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-01-01 DOI:10.1016/j.jpubtr.2022.100027
Hema S. Rayaprolu , Hao Wu , Bahman Lahoorpoor , David Levinson
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引用次数: 2

Abstract

This study adopts an Access-Oriented Design (AOD) framework for optimizing transit network design. We present and demonstrate a method to evaluate the best combination of local and express alternative transit system designs through the novel concept of ‘iso-access lines’. Two bus network system designs were explored for a greenfield development in suburban Sydney: through-routed transit lines (T-ways) with higher speeds and more direct service, but longer access and egress times, and local routes that provide additional spatial coverage. We developed scenarios with T-ways only, local routes only, and both, and computed transit access to jobs as a cumulative-opportunities measure for each scenario. Local routes offer greater overall access, while T-ways provide greater access-per-unit-cost. The optimal combination of the two was established by generating ‘iso-access’ lines and determining access-maximizing combinations for a given cost by applying production-theory principles. For 15-min access, the optimal combinations had T-way service frequency equivalent to 0.48 times that of local routes. This ratio increased to 1.45, 2.05 and 2.63 for 30-min, 45- min and 60-min access respectively. In practice, the method can be applied to determine optimal transit combinations for any given budget and desired access level.

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交通网络设计中的最大接入
本文采用面向访问的设计(AOD)框架对公交网络进行优化设计。我们提出并展示了一种方法,通过“等通道线路”的新概念来评估本地和快速替代交通系统设计的最佳组合。为悉尼郊区的一个绿地开发项目探索了两种公交网络系统设计:具有更高速度和更直接服务的直通公交线路(T-ways),但进出时间较长,以及提供额外空间覆盖的本地路线。我们开发了仅使用t路、仅使用本地路线和两者兼而有之的场景,并计算了每个场景的公交访问作为累积机会度量。本地路由提供更大的整体访问,而t- way提供更高的单位成本访问。通过生成“等访问”线,并通过应用生产理论原则确定给定成本下访问最大化的组合,从而确定两者的最佳组合。对于15分钟的访问,最优组合的t路服务频率相当于本地路线的0.48倍。在30分钟、45分钟和60分钟时,这一比率分别为1.45、2.05和2.63。在实践中,该方法可用于确定任何给定预算和期望访问级别的最佳交通组合。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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