Research and application of a control system for remotely operated vehicle

被引:0
|
作者
Stale Key Laboratory of Robotics, Shenyang Institute of Automation, Chinese Academy of Sciences, Shenyang 110016, China [1 ]
不详 [2 ]
机构
来源
Jiqiren | 2008年 / 5卷 / 398-403期
关键词
Industrial research - Remotely operated vehicles - Image communication systems - Vehicle to vehicle communications - Digital storage - Remote control - Vehicle transmissions - Ethernet;
D O I
暂无
中图分类号
学科分类号
摘要
A control system based on industrial Ethernet communication technology and Windows platform is presented for remotely operated vehicle (ROV). The control system is applied to a newly developed remotely operated vehicle, and it displays obvious advantages over the traditional control systems in communication ability, video transmission, control performance, hardware expansibility, data storage and display, etc. Experiment is made in water pool with the presented control system to validate the good motion, functions and performances of the control system and the whole ROV.
引用
收藏
相关论文
共 50 条
  • [41] Remotely Operated Vehicle System Implementation in Open-Water
    Mu, Ling-Ji
    Sardinha, Carlos
    Chen, Chin-Yin
    Yang, Ya-Chao
    Yu, Chao-Ming
    Chiu, Yi-Ming
    PROCEEDINGS OF THE 2ND INTERNATIONAL CONFERENCE ON INTELLIGENT TECHNOLOGIES AND ENGINEERING SYSTEMS (ICITES2013), 2014, 293 : 553 - 560
  • [42] Underwater Survey System of Dam Embankment by Remotely Operated Vehicle
    Sugimoto, Hideki
    Moriya, Yoichi
    Ogasawara, Tetsuya
    2017 IEEE UNDERWATER TECHNOLOGY (UT), 2017,
  • [43] A robust nonlinear control design for remotely operated vehicle depth control systems
    Trebi-Ollennu, A
    White, BA
    TRANSACTIONS OF THE INSTITUTE OF MEASUREMENT AND CONTROL, 1997, 19 (03) : 119 - 125
  • [44] Design and development of Remotely Operated Vehicle for shallow waters and polar research
    Vedachalam, N.
    Ramesh, S.
    Subramanian, A. N.
    Sathianarayanan, D.
    Ramesh, R.
    Harikrishnan, G.
    Pranesh, S. B.
    Prakash, V. Doss
    Jyothi, V. Bala Naga
    Chowdhury, Tamshuk
    Ramadass, G. A.
    Atmanand, M. A.
    2015 IEEE UNDERWATER TECHNOLOGY (UT), 2015,
  • [45] Virtual Platform of a Remotely Operated Vehicle
    Zhang, Jin
    Li, Wei
    Yu, Jiancheng
    Li, Yan
    Li, Shuo
    Chen, Genshe
    OCEANS 2015 - MTS/IEEE WASHINGTON, 2015,
  • [46] Underwater Absorber for a Remotely Operated Vehicle
    Xu, Pengfei
    Han, Chenbo
    Lv, Tao
    Cheng, Hongxia
    JOURNAL OF MARINE SCIENCE AND ENGINEERING, 2022, 10 (04)
  • [47] Methodology of remotely operated vehicle design
    Graczyk, T
    MARINE TECHNOLOGY III, 2000, 1 : 573 - 577
  • [48] Development of a Remotely Operated Submarine Vehicle
    Medeiros, Antonio Marcos M.
    Junior, Jose Artur C. de O.
    Lima, Pedro H. P.
    Holdefer, Antonio E.
    Ramos de Castilho, Joao Victor
    de Oliveira, Murilo Livio
    de Lima Nerys, Jose Wilson
    2017 CHILEAN CONFERENCE ON ELECTRICAL, ELECTRONICS ENGINEERING, INFORMATION AND COMMUNICATION TECHNOLOGIES (CHILECON), 2017,
  • [49] THETIS: An underwater remotely operated vehicle
    Lygouras, JN
    Tarchanidis, KN
    Tsalides, P
    OCEANS '96 MTS/IEEE, CONFERENCE PROCEEDINGS, VOLS 1-3 / SUPPLEMENTARY PROCEEDINGS: COASTAL OCEAN - PROSPECTS FOR THE 21ST CENTURY, 1996, : 1105 - 1107
  • [50] Dynamic modelling of a remotely operated vehicle
    Ahmad, SM
    Sutton, R
    GUIDANCE AND CONTROL OF UNDERWATER VEHICLES 2003, 2003, : 43 - 48
12345