模拟 COVID-19 在大流行后期对运输的影响:犹他州案例研究

IF 2.8 3区 工程技术 Q3 TRANSPORTATION
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引用次数: 0

摘要

全球 COVID-19 大流行对美国各地的交通产生了巨大影响。然而,目前还缺乏对大流行后期对车辆交通影响的研究。因此,本文研究了大流行后期犹他州两个大都市县高速公路交通模式的变化。我们发现,随着旅行限制的放宽和 COVID 疫苗的接种,车辆交通量已恢复到甚至超过大流行前的水平。由于网上购物和按需送货的增长,卡车交通量高于疫情发生前的水平。为了帮助应对机构为近期的交通模式做好准备,本文提出了一种基于机器学习与图论相结合的创新方法的交通预测模型。评估结果表明,所提出的预测模型具有理想的性能。不同辖区的平均绝对百分比预测误差介于 0.38% 和 1.74% 之间。平均而言,就均方根预测误差而言,该模型比传统的长短期记忆模型高出 31.20%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling the impact of COVID-19 on transportation at later stage of the pandemic: A case study of Utah

The global COVID-19 pandemic has had a great impact on transportation across the United States. However, there is a lack of studies investigating the pandemic’s impact on vehicular traffic at the later stage of the pandemic. Therefore, this paper studies the change of freeway traffic patterns in two metropolitan counties in the State of Utah at the latter stage of the pandemic. We found that with the relaxation of travel restriction and the COVID vaccine, vehicular traffic has recovered to equaling, if not exceeding, pre-pandemic levels. Truck traffic is higher than the pre-pandemic level due to the growth of online shopping and on-demand delivery. To help responsive agencies to prepare for the near-future traffic pattern, a traffic prediction model based on an innovative approach integrating machine learning with graph theory is proposed. The evaluation shows that the proposed prediction model has a desirable performance. The mean absolute percentage prediction error is between 0.38% and 1.74% for different jurisdictions. On average, the modal outperforms the traditional long short-term memory model by 31.20% in terms of root mean squared prediction error.

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来源期刊
CiteScore
8.80
自引率
19.40%
发文量
51
审稿时长
15 months
期刊介绍: The Journal of Intelligent Transportation Systems is devoted to scholarly research on the development, planning, management, operation and evaluation of intelligent transportation systems. Intelligent transportation systems are innovative solutions that address contemporary transportation problems. They are characterized by information, dynamic feedback and automation that allow people and goods to move efficiently. They encompass the full scope of information technologies used in transportation, including control, computation and communication, as well as the algorithms, databases, models and human interfaces. The emergence of these technologies as a new pathway for transportation is relatively new. The Journal of Intelligent Transportation Systems is especially interested in research that leads to improved planning and operation of the transportation system through the application of new technologies. The journal is particularly interested in research that adds to the scientific understanding of the impacts that intelligent transportation systems can have on accessibility, congestion, pollution, safety, security, noise, and energy and resource consumption. The journal is inter-disciplinary, and accepts work from fields of engineering, economics, planning, policy, business and management, as well as any other disciplines that contribute to the scientific understanding of intelligent transportation systems. The journal is also multi-modal, and accepts work on intelligent transportation for all forms of ground, air and water transportation. Example topics include the role of information systems in transportation, traffic flow and control, vehicle control, routing and scheduling, traveler response to dynamic information, planning for ITS innovations, evaluations of ITS field operational tests, ITS deployment experiences, automated highway systems, vehicle control systems, diffusion of ITS, and tools/software for analysis of ITS.
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