A Virtual Vehicle–Based Car-Following Model to Reproduce Hazmat Truck Drivers’ Differential Behaviors

IF 2 4区 工程技术 Q2 ENGINEERING, CIVIL
Yichang Shao, Yi Zhang, Yuhan Zhang, Xiaomeng Shi, Nirajan Shiwakoti, Zhirui Ye
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引用次数: 0

Abstract

Enhancing hazmat truck safety through advanced driving assistance systems (ADAS) relies on both system efficacy and driver reactions. This study investigates the driving behaviors of hazmat truck drivers in response to forward collision warnings (FCWs). Traditional warning triggering methods struggle to capture diverse and immediate driver responses; therefore, our research employs a vision-based framework for driving data extraction and utilizes the K-means++ clustering method for response-based classification. Moreover, we propose an enhanced version of the intelligent driver model (IDM) based on the concept of a virtual vehicle to reproduce hazmat truck drivers’ differential behaviors during risky car-following periods, achieving results that depict improved driving simulations. This model is compared with classic benchmarks, including the IDM, optimal velocity model (OVM), and full velocity difference (FVD) model, demonstrating superior performance in terms of traffic stability and safety in extreme scenarios. Our findings highlight that preaction drivers tend to accelerate before receiving warnings, opting to overtake rather than maintain safe distances. In contrast, calm drivers decelerate in anticipation of the warning, showcasing their awareness of maintaining safety. The analysis reveals that aggressive drivers are predominantly in the 41–45 age group, indicating a higher skill level, while calm drivers are more commonly older, reflecting a trend in cautious driving behaviors. Overall, our research contributes to the development of effective ADAS by considering real-time driver responses and emphasizes the potential of our model to revolutionize commercial ADAS adoption and enhance road safety for hazmat operations.

Abstract Image

基于虚拟车辆的汽车跟随模型再现危险品卡车司机的差异行为
通过高级驾驶辅助系统(ADAS)提高危险品运输车的安全性取决于系统的功效和驾驶员的反应。本研究调查了危险品卡车司机对前撞警告(FCW)的驾驶行为。传统的警告触发方法难以捕捉到驾驶员的各种即时反应;因此,我们的研究采用了基于视觉的驾驶数据提取框架,并利用 K-means++ 聚类方法进行基于反应的分类。此外,我们还提出了基于虚拟车辆概念的增强版智能驾驶员模型(IDM),以再现危险品卡车司机在危险跟车期间的不同行为,并取得了改进驾驶模拟的结果。我们将该模型与包括 IDM、最优速度模型 (OVM) 和全速度差 (FVD) 模型在内的经典基准进行了比较,结果表明,在极端情况下,该模型在交通稳定性和安全性方面表现出色。我们的研究结果表明,预行动驾驶员倾向于在收到警告前加速,选择超车而不是保持安全距离。与此相反,冷静的驾驶员会在收到警告后减速,这表明他们具有维护安全的意识。分析表明,激进型驾驶者主要集中在 41-45 岁年龄段,这表明他们的驾驶技术水平较高,而冷静型驾驶者的年龄通常较大,这反映了谨慎驾驶行为的趋势。总之,我们的研究通过考虑驾驶员的实时反应,为开发有效的 ADAS 做出了贡献,并强调了我们的模型在彻底改变商业 ADAS 应用和提高危险品运输道路安全方面的潜力。
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
Journal of Advanced Transportation
Journal of Advanced Transportation 工程技术-工程:土木
CiteScore
5.00
自引率
8.70%
发文量
466
审稿时长
7.3 months
期刊介绍: The Journal of Advanced Transportation (JAT) is a fully peer reviewed international journal in transportation research areas related to public transit, road traffic, transport networks and air transport. It publishes theoretical and innovative papers on analysis, design, operations, optimization and planning of multi-modal transport networks, transit & traffic systems, transport technology and traffic safety. Urban rail and bus systems, Pedestrian studies, traffic flow theory and control, Intelligent Transport Systems (ITS) and automated and/or connected vehicles are some topics of interest. Highway engineering, railway engineering and logistics do not fall within the aims and scope of JAT.
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