Supporting driver performance in closely spaced tunnel-interchange structure: Traffic control devices and effects on driving behavior.

IF 1.6 3区 工程技术 Q3 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
Yunjie Ju, Feng Chen, Jia Li, Xiaohua Zhao, Wenhui Dong
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引用次数: 0

Abstract

Objectives: With the rapid development of expressways in the mountainous regions of southwestern China, closely spaced tunnel-interchange structures have inevitably emerged due to topographical constraints and environmental limitations. Given the unfavorable road geometry and rapid cross-section transitions, drivers face significant safety concerns. This study aims to investigate drivers' safety performance at closely spaced tunnel-interchange sections and determine how safety risks can be mitigated through improved traffic control devices design.

Methods: Thirty-nine participants conducted an experimental study in a fixed-base simulator. The test scenario was modeled on the Xingyan Freeway-S3801 and accurately reproduced in the simulator. For each safety performance metric, the driving simulator experiments yielded a dataset with 780 observations. To address the idiosyncratic variation due to individual driver differences, a series of linear mixed effects models (LMM) were developed to analyze drivers' behavior responses.

Results: In closely spaced tunnel-interchange sections, a general impairment of both longitudinal and lateral performance was observed. This study identified potential critical impact variables in traffic control device systems. According to the LMM results: (a) Removing the 0.5 km interchange ramp exit advance guide sign located in the tunnel exit area reduces dangerous behavior in the corresponding impact area. (b) Replacing the 0.5 km interchange ramp exit advance guide sign with arrow pavement markers as an information source supports improved driver performance, promoting driver safety. (c) Adding tunnel exit distance signs within tunnels is recommended to enhance situation awareness for drivers.

Conclusions: This study addresses the scientific issues related to traffic control devices setup for closely spaced tunnel-interchange sections, focusing on identifying potential critical impact variables. The findings provide guidance on the design of traffic control devices for such sections and support revisions to national engineering standards.

支持驾驶员在间距较近的隧道-互通式立交结构中的表现:交通控制装置及其对驾驶行为的影响。
目的:随着中国西南山区高速公路的快速发展,由于地形限制和环境制约,不可避免地出现了间距较近的隧道互通结构。由于不利的道路几何条件和快速的断面转换,驾驶员面临着巨大的安全隐患。本研究旨在调查驾驶员在间距较近的隧道立交路段的安全表现,并确定如何通过改进交通控制装置设计来降低安全风险:方法:39 名参与者在固定基座模拟器上进行了实验研究。测试场景以兴延高速公路-S3801 为模型,并在模拟器中准确再现。对于每个安全性能指标,驾驶模拟器实验产生了一个包含 780 个观测值的数据集。为了解决因驾驶员个体差异而产生的特异性变化,我们建立了一系列线性混合效应模型(LMM)来分析驾驶员的行为反应:结果:在间距较近的隧道互通路段,观察到纵向和横向性能普遍受损。这项研究确定了交通控制设备系统中潜在的关键影响变量。根据 LMM 结果:(a) 移除位于隧道出口区域的 0.5 公里互通立交匝道出口超前导向标志,可减少相应影响区域的危险行为。(b) 用箭头路面标线取代 0.5 公里互通匝道出口前导标志作为信息源,有助于改善驾驶员的表现,促进驾驶员的安全。(c) 建议在隧道内增设隧道出口距离标志,以提高驾驶员的情况意识:本研究解决了与紧密间隔的隧道-互通路段交通控制装置设置相关的科学问题,重点是识别潜在的关键影响变量。研究结果为此类路段的交通控制设备设计提供了指导,并为国家工程标准的修订提供了支持。
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来源期刊
Traffic Injury Prevention
Traffic Injury Prevention PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-
CiteScore
3.60
自引率
10.00%
发文量
137
审稿时长
3 months
期刊介绍: The purpose of Traffic Injury Prevention is to bridge the disciplines of medicine, engineering, public health and traffic safety in order to foster the science of traffic injury prevention. The archival journal focuses on research, interventions and evaluations within the areas of traffic safety, crash causation, injury prevention and treatment. General topics within the journal''s scope are driver behavior, road infrastructure, emerging crash avoidance technologies, crash and injury epidemiology, alcohol and drugs, impact injury biomechanics, vehicle crashworthiness, occupant restraints, pedestrian safety, evaluation of interventions, economic consequences and emergency and clinical care with specific application to traffic injury prevention. The journal includes full length papers, review articles, case studies, brief technical notes and commentaries.
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