Mobility impacts of automated driving and shared mobility

IF 2.1 4区工程技术 Q3 TRANSPORTATION

European Journal of Transport and Infrastructure Research Pub Date : 2019-01-13 DOI:10.18757/EJTIR.2019.19.4.4282

M. Snelder, I. Wilmink, Jeroen P. T. van der Gun, H. Bergveld, Parvin Hoseini, Bart Van Arem

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引用次数: 15

Abstract

This paper presents a model specifically developed to explore the mobility impacts of connected and automated driving and shared mobility. It is an explorative iterative model that uses an elasticity model for destination choice, a multinomial logit model for mode choice and a network fundamental diagram to assess traffic impacts. To the best of the authors’ knowledge, it is the first model that combines a network fundamental diagram with choice models. A second contribution is the inclusion of automated vehicles, automated (shared) taxis, automated shared vans and new parking concepts in the model as well as the way in which they affect mobility choices and traffic conditions. The insights into the direct mobility impacts are the third contribution. The short computation time of the model enables exploration of large numbers of scenarios, sensitivity analyses and assessments of the impacts of interventions. The model was applied in a case study of the Dutch Province of North-Holland, in which the potential impacts of automated and shared vehicles and mitigating interventions were explored. In this case study, four extreme scenarios were explored, in which 100% of the vehicles have SAE-level 3/4 or 5 and people have a low or high willingness to share. The extremes were chosen to get insights into maximum effects. The results show that if automated vehicles and sharing are accepted, it is likely that there will be considerable changes in mobility patterns and traffic performance, with both positive and problematic effects.

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自动驾驶和共享出行对出行的影响

本文提出了一个专门开发的模型，以探索联网和自动驾驶以及共享出行对出行的影响。这是一个探索性迭代模型，使用目的地选择的弹性模型、模式选择的多项式logit模型和网络基本图来评估交通影响。据作者所知，这是第一个将网络基本图与选择模型相结合的模型。第二个贡献是将自动车辆、自动（共享）出租车、自动共享货车和新的停车概念纳入模型，以及它们影响出行选择和交通状况的方式。对流动性直接影响的见解是第三个贡献。该模型计算时间短，可以探索大量场景，进行敏感性分析，并评估干预措施的影响。该模型应用于荷兰北荷兰省的一项案例研究，其中探讨了自动化和共享车辆的潜在影响以及缓解干预措施。在本案例研究中，探讨了四种极端情况，其中100%的车辆具有SAE 3/4或5级，人们共享意愿较低或较高。选择极端是为了深入了解最大效果。结果表明，如果自动化车辆和共享被接受，那么流动模式和交通性能很可能会发生相当大的变化，既有积极的影响，也有问题的影响。

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

European Journal of Transport and Infrastructure Research TRANSPORTATION-

CiteScore

3.80

自引率

0.00%

发文量

审稿时长

30 weeks

期刊介绍： The European Journal of Transport and Infrastructure Research (EJTIR) is a peer-reviewed scholarly journal, freely accessible through the internet. EJTIR aims to present the results of high-quality scientific research to a readership of academics, practitioners and policy-makers. It is our ambition to be the journal of choice in the field of transport and infrastructure both for readers and authors. To achieve this ambition, EJTIR distinguishes itself from other journals in its field, both through its scope and the way it is published.