A New Safety Distance Calculation for Rear-End Collision Avoidance

被引:14
|
作者
Ro, Jin Woo [1 ]
Roop, Partha S. [1 ]
Malik, Avinash [1 ]
机构
[1] Univ Auckland, Dept Elect & Comp Engn, Auckland 1142, New Zealand
来源
IEEE TRANSACTIONS ON INTELLIGENT TRANSPORTATION SYSTEMS | 2021年 / 22卷 / 03期
关键词
Safety; Mathematical model; Acceleration; Collision avoidance; Vehicle dynamics; Delays; Optimization; Intelligent transportation systems; autonomous vehicles; vehicle safety; algorithm design and analysis;
D O I
10.1109/TITS.2020.2975015
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
Rear-end collision avoidance relies on mathematical models to calculate the safety distance. Vehicle deceleration is a key parameter for the accuracy of the models. Current models, however, assume a constant deceleration during braking, which is unrealistic. This assumption results in large over-approximation / under-approximation. In this paper, we rectify this limitation by proposing a new model that accounts for realistic vehicle deceleration during braking. Simulation results show that our approach guarantees safety. Moreover, traffic flow is improved by 21.6% compared to the widely adopted the Berkeley algorithm.
引用
收藏
页码:1742 / 1747
页数:6
相关论文
共 50 条
  • [1] Study on Modeling and Simulation of Vehicle Safety Distance in Low Speed for Rear-end Collision Avoidance
    Chen, Dongxue
    He, Lei
    Zong, Changfu
    Zheng, Hongyu
    Shi, Zhengtang
    MANUFACTURING PROCESS AND EQUIPMENT, PTS 1-4, 2013, 694-697 : 3375 - +
  • [2] Development of rear-end collision avoidance system
    Daihatsu Motor Co, Ltd, Osaka, Japan
    JSAE Rev, 3 (314-316):
  • [3] Applying telecommunications methodology to road safety for rear-end collision avoidance
    Benedetto, Francesco
    Calvi, Alessandro
    D'Amico, Fabrizio
    Giunta, Gaetano
    TRANSPORTATION RESEARCH PART C-EMERGING TECHNOLOGIES, 2015, 50 : 150 - 159
  • [4] A comparative study - Rear-end collision avoidance
    Herard, Jacques
    Lesemann, Micha
    Aparicio, Andres
    Eriksson, Henrik
    Jacobson, Jan
    TRANSPORT RESEARCH ARENA 2012, 2012, 48 : 173 - 183
  • [5] Development of rear-end collision avoidance system
    Araki, H
    Yamada, K
    Hiroshima, Y
    Ito, T
    PROCEEDINGS OF THE 1996 IEEE INTELLIGENT VEHICLES SYMPOSIUM, 1996, : 224 - 229
  • [6] A Rear-end Collision Avoidance System of Connected Vehicles
    Li, Liang
    Lu, Guangquan
    Wang, Yunpeng
    Tian, Daxin
    2014 IEEE 17TH INTERNATIONAL CONFERENCE ON INTELLIGENT TRANSPORTATION SYSTEMS (ITSC), 2014, : 63 - 68
  • [7] Hierarchical longitudinal controller for rear-end collision avoidance
    Kim, Dae-Jin
    Park, Kwang-Hyun
    Bien, Zeungnam
    IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 2007, 54 (02) : 805 - 817
  • [8] Research on Safety Distance Mathematical Model of Pro-Active Head Restraint in Rear-end Collision Avoidance System
    Yin, Xiaoqin
    Wang, Mingxia
    INTERNATIONAL JOURNAL OF SECURITY AND ITS APPLICATIONS, 2015, 9 (01): : 347 - 356
  • [9] Human performance models and rear-end collision avoidance algorithms
    Brown, TL
    Lee, JD
    McGehee, DV
    HUMAN FACTORS, 2001, 43 (03) : 462 - 482
  • [10] Study of mathematics model for rear-end collision avoidance system
    Lian, Jin-Yi
    Hua, Xiao-Yang
    Zhongguo Gonglu Xuebao/China Journal of Highway and Transport, 2005, 18 (03): : 123 - 126
12345