Household activity pattern problem with automated vehicle-enabled intermodal trips

IF 7.6 1区工程技术 Q1 TRANSPORTATION SCIENCE & TECHNOLOGY

Transportation Research Part C-Emerging Technologies Pub Date : 2024-11-15 DOI:10.1016/j.trc.2024.104930

Younghun Bahk , Michael Hyland

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引用次数: 0

Abstract

Driverless or fully automated vehicles (AVs) are expected to fundamentally change how individuals and households travel and how vehicles use roadway infrastructure. The first goal of this study is to develop a modeling framework of activity-constrained household travel in a future multi-modal network with private AVs, shared-use AVs, transit, and intermodal AV-transit travel options. The second goal is to analyze the potential impacts of AVs—including intermodal AV-transit travel—on (a) household-level travel behavior, (b) household travel costs, (c) demand for transport modes, including transit, and (d) vehicle kilometers traveled or VKT. To meet the first goal, we propose and formulate the Household Activity Pattern Problem with AV-enabled Intermodal Trips (HAPP-AV-IT) that incorporates AV deadheading and intermodal AV-transit trips. The modeling framework extends prior HAPP-based formulations that model household-level travel decisions as vehicle (and person) routing and scheduling problems, similar to the pickup and delivery problem with time-windows. To meet the second goal, we apply the HAPP-AV-IT to two case studies and conduct many computational experiments. We use synthetic activity location data for synthetic households and a fictitious medium-size network with a road network, transit network, residential locations, activity locations, and parking locations. The computational results illustrate (a) the critical role that household AV ownership plays in terms of household travel decisions, modal demand, and VKT, (b) that with AVs, deadheading accounts for 30–40 % of vehicle operating distances, (c) that around 10 % of households in the study region benefit from AV-based intermodal trips, and (d) that those 10 % of households see 5 % reductions in household travel costs and 25 % reductions in VKT on average in the most transit friendly scenario. This last finding suggests that intermodal AV-transit trips may exist in a driverless vehicle future, and therefore, transit agencies and transportation planners should consider how to serve this market. We also propose and test a simple heuristic algorithm that quickly solves HAPP-AV-IT problem instances.

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自动驾驶汽车多式联运的家庭活动模式问题

无人驾驶或全自动驾驶汽车（AV）有望从根本上改变个人和家庭的出行方式以及车辆使用道路基础设施的方式。本研究的第一个目标是为未来多模式网络中受活动限制的家庭出行开发一个建模框架，其中包括私人自动驾驶汽车、共用自动驾驶汽车、公共交通以及自动驾驶汽车与公共交通的联运出行选择。第二个目标是分析自动驾驶汽车（包括多式联运自动驾驶汽车-公交出行）对以下方面的潜在影响：(a) 家庭层面的出行行为；(b) 家庭出行成本；(c) 对包括公交在内的交通模式的需求；以及 (d) 车辆行驶公里数或 VKT。为了实现第一个目标，我们提出并制定了 "家庭活动模式问题与启用了 AV 的多式联运出行（HAPP-AV-IT）"，其中包含 AV 尾随出行和 AV 多式联运出行。该建模框架扩展了之前基于 HAPP 的公式，将家庭层面的出行决策建模为车辆（和人员）路由和调度问题，类似于带有时间窗口的接送问题。为了实现第二个目标，我们将 HAPP-AV-IT 应用于两个案例研究，并进行了许多计算实验。我们使用了合成家庭的合成活动位置数据，以及一个包含道路网络、交通网络、住宅位置、活动位置和停车位置的虚构中型网络。计算结果表明：（a）家用自动驾驶汽车在家庭出行决策、模式需求和 VKT 方面发挥了关键作用；（b）使用自动驾驶汽车后，超车占车辆运行距离的 30-40%；（c）研究区域内约有 10% 的家庭受益于基于自动驾驶汽车的多式联运出行；以及（d）在最方便公交的情况下，这 10% 的家庭平均减少了 5% 的家庭出行成本和 25% 的 VKT。最后一项发现表明，在无人驾驶汽车的未来，可能会出现多式联运的自动驾驶汽车交通出行，因此，公交机构和交通规划者应考虑如何为这一市场提供服务。我们还提出并测试了一种可快速解决 HAPP-AV-IT 问题实例的简单启发式算法。

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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来源期刊

Transportation Research Part C-Emerging Technologies 工程技术-运输科技

CiteScore

15.80

自引率

12.00%

发文量

332

审稿时长

64 days

期刊介绍： Transportation Research: Part C (TR_C) is dedicated to showcasing high-quality, scholarly research that delves into the development, applications, and implications of transportation systems and emerging technologies. Our focus lies not solely on individual technologies, but rather on their broader implications for the planning, design, operation, control, maintenance, and rehabilitation of transportation systems, services, and components. In essence, the intellectual core of the journal revolves around the transportation aspect rather than the technology itself. We actively encourage the integration of quantitative methods from diverse fields such as operations research, control systems, complex networks, computer science, and artificial intelligence. Join us in exploring the intersection of transportation systems and emerging technologies to drive innovation and progress in the field.