利用 EDIV 数据揭示变道时的间隙接受行为:使用三级混合效应线性回归方法深入研究高速公路上的驾驶行为

IF 3.2 Q3 TRANSPORTATION
Akshay Gupta , Pushpa Choudhary , Manoranjan Parida
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引用次数: 0

摘要

变道对道路安全具有潜在的重要意义。间隙接受现象是车道变更操作中的首要和关键阶段。本研究旨在调查驾驶员在快速路上变道时的间隙接受行为,重点了解各种因素如何影响驾驶员的变道决策。通过为高速公路驾驶量身定制的各种传感器收集的大量数据集被称为 "高速公路驾驶:仪表车辆 (EDIV) 数据集"。本次研究使用了 59 名驾驶员的驾驶数据,总里程约 4000 公里。通过计算 3D LiDAR 传感器测得的横向偏差,共识别出 2578 次变道事件。在主要分析中观察到各组内存在巨大差异,这表明变道方向对间隙接受度有显著影响。为有效管理组内和组间差异,本研究采用了两个独立的三水平混合效应线性模型。这些模型考虑了单个驾驶员间间隙接受特征的相互依存性,并通过随机效应考虑了不同的变道方向。此外,这些模型还研究了领先/滞后间隙接受度与作为固定效应的各种影响因素之间的关系。研究发现,主体车辆的速度、间隙位置、相对速度和周围车辆类型等因素对快速路上变道时的间隙接受度有影响。本研究获得的启示可为先进驾驶辅助系统(ADAS)的开发和自动驾驶汽车的发展提供参考,有助于改善高速环境下的道路安全和交通流量管理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Unveiling gap acceptance behaviour during lane change with EDIV data: A deep dive into driving behaviour on expressway using a three level mixed effect linear regression approach

Lane change has a potential significance in road safety. Gap acceptance phenomena serves as a primary and critical phase in lane change maneuver. This study aims to investigate the gap acceptance behaviour of drivers during lane changes on expressways, with a focus on understanding how various factors influence drivers' decisions to change lanes. An extensive dataset collected through various sensors tailored for expressway driving, known as the ‘Expressway Drive: Instrumented Vehicle (EDIV) Dataset’ is utilized. Driving data from 59 drivers covering a distance of around 4000 km was used in the current study. Total 2578 lane changing events are identified through computing lateral deviations measured through 3D LiDAR sensor. Substantial differences are observed within the groups in primary analysis which suggest that lane-change direction significantly affect gap acceptance. To effectively manage both intra- and inter-cluster variances, this study employs two separate three levels mixed-effects linear models. These models account for the interdependence of gap acceptance characteristics within individual drivers and for different directions of lane changes by incorporating random effects. Furthermore, these models examine relationships between lead/ lag gap acceptance and the various influencing factors as fixed effects. It was found that factors such as speed of the subject vehicle, gap position, relative speeds, and surrounding vehicle types had influence on gap acceptance during lane changes on expressways. The insights gained from this study could inform the development of advanced driver assistance systems (ADAS) as well as development of autonomous vehicles, contributing to improved road safety and traffic flow management in high-speed environments.

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来源期刊
IATSS Research
IATSS Research TRANSPORTATION-
CiteScore
6.40
自引率
6.20%
发文量
44
审稿时长
42 weeks
期刊介绍: First published in 1977 as an international journal sponsored by the International Association of Traffic and Safety Sciences, IATSS Research has contributed to the dissemination of interdisciplinary wisdom on ideal mobility, particularly in Asia. IATSS Research is an international refereed journal providing a platform for the exchange of scientific findings on transportation and safety across a wide range of academic fields, with particular emphasis on the links between scientific findings and practice in society and cultural contexts. IATSS Research welcomes submission of original research articles and reviews that satisfy the following conditions: 1.Relevant to transportation and safety, and the multiple impacts of transportation systems on security, human health, and the environment. 2.Contains important policy and practical implications based on scientific evidence in the applicable academic field. In addition to welcoming general submissions, IATSS Research occasionally plans and publishes special feature sections and special issues composed of invited articles addressing specific topics.
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