Outdoor Haptic Teleoperation of a Hexarotor UAV

被引:0
|
作者
Reyes, Sergio [1 ]
Romero, Hugo [2 ]
Salazar, Sergio [1 ]
Lozano, Rogelio [1 ]
Santos, Omar [2 ]
机构
[1] CINVESTAV IPN, UMI LAFMIA CNRS 3175, Mexico City 07360, DF, Mexico
[2] UAEH Informat Technol & Syst Res Ctr, Pachuca 42184, Hgo, Mexico
来源
2015 INTERNATIONAL CONFERENCE ON UNMANNED AIRCRAFT SYSTEMS (ICUAS'15) | 2015年
关键词
D O I
暂无
中图分类号
V [航空、航天];
学科分类号
08 ; 0825 ;
摘要
This paper considers the design and control of a Remotely Operated Aerial System Remotely Operated (ROAS) with force feedback to pilot in order to increase the perception level. The force experienced by the pilot through a Human Machine Interface (HMI) considers and it is proportional to the translational speed and proximity to objects located in the environment where the UAV evolves. In order to test the performance and feasibility of the developed platform and control strategy, experimental tests have been carried out indoor and outdoor which represent a contribution in the current literature on the subject. Experimental results obtained show an acceptable performance for both flight conditions.
引用
收藏
页码:972 / 979
页数:8
相关论文
共 50 条
  • [31] Measuring asymmetric haptic teleoperation device properties
    Christiansson, G
    2004 IEEE INTERNATIONAL CONFERENCE ON SYSTEMS, MAN & CYBERNETICS, VOLS 1-7, 2004, : 2454 - 2458
  • [32] Study on Operability of Multifunctional Haptic Device for Teleoperation
    Kikuchi, Kengo
    Kurisu, Masamitsu
    2017 56TH ANNUAL CONFERENCE OF THE SOCIETY OF INSTRUMENT AND CONTROL ENGINEERS OF JAPAN (SICE), 2017, : 198 - 201
  • [33] Towards Sensor-Less Haptic Teleoperation
    Hace, A.
    Franc, M.
    NEW TRENDS IN MEDICAL AND SERVICE ROBOTS: CHALLENGES AND SOLUTIONS, 2014, 20 : 243 - 256
  • [34] Haptic teleoperation of a mobile robot: A user study
    Lee, S
    Sukhatme, G
    Kim, GJI
    Park, CM
    PRESENCE-TELEOPERATORS AND VIRTUAL ENVIRONMENTS, 2005, 14 (03) : 345 - 365
  • [35] Multipoint Haptic Mediator Interface for Robotic Teleoperation
    Ang, Quan-Zen
    Horan, Ben
    Nahavandi, Saeid
    IEEE SYSTEMS JOURNAL, 2015, 9 (01): : 86 - 97
  • [36] Robust haptic teleoperation of a mobile manipulation platform
    Park, J
    Khatib, O
    EXPERIMENTAL ROBOTICS IX, 2006, 21 : 543 - +
  • [37] Using a robotic teleoperation system for haptic exploration
    Puyo, Lina M. Becerra
    Capel, Heather M.
    Phelan, Shanon K.
    Wiebe, Sandra A.
    Adams, Kim D.
    JOURNAL OF REHABILITATION AND ASSISTIVE TECHNOLOGIES ENGINEERING, 2021, 8
  • [38] Haptic Augmentation System for Construction Robot Teleoperation
    Zhou, Tianyu
    Xia, Pengxiang
    Ye, Yang
    Du, Jing
    COMPUTING IN CIVIL ENGINEERING 2023-DATA, SENSING, AND ANALYTICS, 2024, : 496 - 504
  • [39] Multipoint Haptic Device for Robot Hand Teleoperation
    Kobayashi, Futoshi
    Ikai, George
    Fukui, Wataru
    Nakamoto, Hiroyuki
    Kojima, Fumio
    2012 INTERNATIONAL SYMPOSIUM ON MICRO-NANOMECHATRONICS AND HUMAN SCIENCE (MHS), 2012, : 304 - 309
  • [40] Haptic implications of tool flexibility in surgical teleoperation
    Tavakoli, M.
    Howe, Robert D.
    SYMPOSIUM ON HAPTICS INTERFACES FOR VIRTUAL ENVIRONMENT AND TELEOPERATOR SYSTEMS 2008, PROCEEDINGS, 2008, : 377 - 378
12345