Surrounding sensing and obstacle predicting for collision avoidance of vehicles

被引:0
|
作者
Tu, DW [1 ]
Chen, J [1 ]
Tao, J [1 ]
机构
[1] Shanghai Univ, Sch Mechatron Engn, Shanghai 200072, Peoples R China
来源
OPTICAL AND FIBER OPTIC SENSOR SYSTEMS | 1998年 / 3555卷
关键词
advanced vehicle; collision avoidance system; laser scanning radar;
D O I
10.1117/12.318185
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
A basic concept of an advanced safety vehicle, which will emerge in the next century, is introduced in this paper, with the emphasis on the active obstacle avoidance system. A prototype system is put forward, in which a scanning laser radar is used for detecting ahead objects, the surrounding information can be understood from the radar data, and therefore once the serious situation emerges, the drive will be warned, or the auto-control system will operate according to the analysis of the surrounding condition.
引用
收藏
页码:411 / 416
页数:6
相关论文
共 50 条
  • [21] Obstacle Magnification for 2-D Collision and Occlusion Avoidance of Autonomous Multirotor Aerial Vehicles
    Lim, Jeonggeun
    Pyo, Sangjin
    Kim, Namyun
    Lee, Jehong
    Lee, Jongho
    IEEE-ASME TRANSACTIONS ON MECHATRONICS, 2020, 25 (05) : 2428 - 2436
  • [22] Velocity Obstacle-Based Collision Avoidance and Motion Planning Framework for Connected and Automated Vehicles
    Wang, Shunchao
    Li, Zhibin
    Wang, Bingtong
    Ma, Jingfeng
    Yu, Jingcai
    TRANSPORTATION RESEARCH RECORD, 2022, 2676 (05) : 748 - 766
  • [23] Distributed Formation Control with Obstacle and Collision Avoidance for Hypersonic Gliding Vehicles Subject to Multiple Constraints
    Zhang, Zhen
    Luo, Yifan
    Qu, Yaohong
    INTERNATIONAL JOURNAL OF AEROSPACE ENGINEERING, 2023, 2023
  • [24] Velocity Obstacle Based Strategy for Multi-agent Collision Avoidance of Unmanned Aerial Vehicles
    Lombard, Alexandre
    Durand, Lilian
    Galland, Stephane
    2020 IEEE INTERNATIONAL CONFERENCE ON SENSING, COMMUNICATION AND NETWORKING (SECONWORKSHOPS), 2020,
  • [25] Review of Obstacle Detection Systems for Collision Avoidance of Autonomous Underwater Vehicles Tested in a Real Environment
    Kot, Rafal
    ELECTRONICS, 2022, 11 (21)
  • [26] Trajectory tracking with collision avoidance for nonholonomic vehicles with acceleration constraints and limited sensing
    Rodriguez-Seda, Erick J.
    Tang, Chinpei
    Spong, Mark W.
    Stipanovic, Dusan M.
    INTERNATIONAL JOURNAL OF ROBOTICS RESEARCH, 2014, 33 (12): : 1569 - 1592
  • [27] Decentralized stabilization and collision avoidance of multiple air vehicles with limited sensing capabilities
    Dimarogonas, DV
    Kyriakopoulos, KJ
    ACC: PROCEEDINGS OF THE 2005 AMERICAN CONTROL CONFERENCE, VOLS 1-7, 2005, : 4667 - 4672
  • [28] Robust underwater obstacle detection and collision avoidance
    Varadarajan Ganesan
    Mandar Chitre
    Edmund Brekke
    Autonomous Robots, 2016, 40 : 1165 - 1185
  • [29] Robust underwater obstacle detection and collision avoidance
    Ganesan, Varadarajan
    Chitre, Mandar
    Brekke, Edmund
    AUTONOMOUS ROBOTS, 2016, 40 (07) : 1165 - 1185
  • [30] A Generic Obstacle Detection Method for Collision Avoidance
    Ben Romdhane, Nadra
    Hammami, Mohamed
    Ben-Abdallah, Hanene
    2011 IEEE INTELLIGENT VEHICLES SYMPOSIUM (IV), 2011, : 491 - 496
12345