互联环境下的跟车碰撞风险分析:一个贝叶斯非平稳广义极值模型

IF 12.5 1区 工程技术 Q1 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
Faizan Nazir , Yasir Ali , Anshuman Sharma , Zuduo Zheng , Md Mazharul Haque
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引用次数: 0

摘要

互联环境提供驾驶辅助,帮助驾驶员做出决策,并通过最大限度地减少与决策相关的不确定性,使驾驶操作更安全。在安全关键事件中,连接环境的作用对于车辆跟随操作至关重要,即驾驶员跟随领先车辆,如果不及时采取行动,很可能导致追尾碰撞。此外,需要探索不同驾驶员对相同信息的感知和反应,以了解互联环境对汽车跟随行为的不同影响。因此,本研究使用交通冲突技术研究了传统环境和互联环境对汽车跟随碰撞风险的影响。使用CARRS-Q高级驾驶模拟器收集数据,其中78名参与者在两种随机驾驶条件下执行车辆跟踪任务:基线(无驾驶辅助)和连接环境(有驾驶辅助)。在汽车跟随场景中,安全关键事件是领导者的紧急刹车,除了其他一些驾驶辅助设备外,参与者还提前获得了相关信息。采用改进的碰撞时间作为交通冲突度量来表征追尾事故风险,并在贝叶斯框架中使用广义极值(GEV)模型建模。该模型结合了驾驶相关因素和驾驶员人口统计数据,以解决交通极端情况的非平稳性问题。结果表明,在联网环境下,车辆跟随的碰撞风险显著降低。此外,利用开发的模型,对每个驾驶员的单独GEV分布进行了估计,从而深入了解了互联环境对碰撞风险的异质性影响。利用所建立的模型来了解不同驾驶员特征的碰撞风险,结果表明,所有年龄组和性别的碰撞风险都降低,其中年轻和女性驾驶员获得的安全效益最大。这项研究的发现揭示了互联环境在改善车辆跟随行为和驾驶员做出更安全决策的能力方面的功效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Car-following crash risk analysis in a connected environment: A Bayesian non-stationary generalised extreme value model

A connected environment provides driving aids to assist drivers in decision-making and aims to make driving manoeuvres safer by minimising uncertainty associated with decisions. The role of a connected environment becomes vital for car-following manoeuvres in a safety–critical event, whereby drivers follow a lead vehicle, and if timely action is not taken, it is likely to lead to a rear-end collision. Moreover, how different drivers perceive and react to the same information needs to be explored to understand the differential effects of a connected environment on car-following behaviour. As such, this study investigated the effects of the traditional and connected environments on car-following crash risk using traffic conflict techniques. Data were collected using the CARRS-Q advanced driving simulator, whereby 78 participants performed a car-following task in two randomised driving conditions: baseline (without driving aids) and connected environment (with driving aids). The safety–critical event in the car-following scenario was the leader’s hard braking, for which participants received advance information, besides several other driving aids. Modified time-to-collision was used as the traffic conflict measure for characterising rear-end crash risk and modelled using a generalised extreme value (GEV) model in the Bayesian framework. This model incorporated driving-related factors and driver demographics to address the non-stationarity issue of traffic extremes. Results reveal that the car-following crash risk is significantly reduced in the connected environment. Further, using the developed model, separate GEV distributions were estimated for each individual driver, providing insights into the heterogeneous effects of the connected environment on crash risk. The developed model was employed to understand the crash risk across different driver characteristics, and results suggest that crash risk decreases for all age groups and gender, with the maximum safety benefits obtained by young and female drivers. The findings of this study shed light on the efficacy of the connected environment in improving car-following behaviour and drivers’ ability to make safer decisions.

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来源期刊
CiteScore
22.10
自引率
34.10%
发文量
35
审稿时长
24 days
期刊介绍: Analytic Methods in Accident Research is a journal that publishes articles related to the development and application of advanced statistical and econometric methods in studying vehicle crashes and other accidents. The journal aims to demonstrate how these innovative approaches can provide new insights into the factors influencing the occurrence and severity of accidents, thereby offering guidance for implementing appropriate preventive measures. While the journal primarily focuses on the analytic approach, it also accepts articles covering various aspects of transportation safety (such as road, pedestrian, air, rail, and water safety), construction safety, and other areas where human behavior, machine failures, or system failures lead to property damage or bodily harm.
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