Design framework of teleoperating system for magnetically levitated robot with force-feedback

被引:1
|
作者
Tsuda, N [1 ]
Kato, N [1 ]
Nomura, Y [1 ]
Matsui, H [1 ]
机构
[1] Mie Univ, Fac Engn, Dept Mech Engn, Mechatron Lab, Tsu, Mie 5148507, Japan
来源
TELEMANIPULATOR AND TELEPRESENCE TECHNOLOGIES VIII | 2002年 / 4570卷
关键词
master-slave system; man-machine interface; magnetic levitation; non-contact manipulation; virtual force feedback;
D O I
10.1117/12.454742
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
Precise works and manipulating micro objects are tough jobs for operators both mentally and physically. To execute these jobs smoothly without feeling wrongness, use of master-slave system is preferable because position and force are able to be scaled up and down as well under the system. In this study we develop a master-slave system where the size of a slave robot is very small and the slave robot is levitated by magnetic forces. In distinction from ordinary master-slave systems, the levitated robot does not get any other contact forces from outside. Thus we introduce a method using an impedance model for constructing the master-slave system. We confirmed the effectiveness of the positioning control algorithm through experiments.
引用
收藏
页码:25 / 33
页数:9
相关论文
共 50 条
  • [41] Haptify: A Measurement-Based Benchmarking System for Grounded Force-Feedback Devices
    Fazlollahi, Farimah
    Kuchenbecker, Katherine J. J.
    IEEE TRANSACTIONS ON ROBOTICS, 2023, 39 (02) : 1622 - 1636
  • [42] Virtual force field based of force-feedback of road condition for driving assistant design in electric vehicle
    Carlier J.
    Murakami T.
    International Journal of Automation Technology, 2011, 5 (06) : 908 - 915
  • [43] A master-slave manipulation system with a force-feedback function for endoscopic surgery
    Hoshino, T
    Ishigaki, H
    Konishi, Y
    Kondo, K
    Suzuki, T
    Saito, T
    Kakuta, N
    Wagatsuma, A
    Mabuchi, K
    PROCEEDINGS OF THE 23RD ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY, VOLS 1-4: BUILDING NEW BRIDGES AT THE FRONTIERS OF ENGINEERING AND MEDICINE, 2001, 23 : 3446 - 3449
  • [44] A bone reaming system using micro sensors for Internet force-feedback control
    Ho, AWT
    Elhajj, I
    Li, WJ
    Xi, N
    Mei, T
    2001 IEEE INTERNATIONAL CONFERENCE ON ROBOTICS AND AUTOMATION, VOLS I-IV, PROCEEDINGS, 2001, : 656 - 661
  • [45] Nonlinear forced oscillation in a magnetically levitated system: the effect of the time delay of the electromagnetic force
    Tsuyoshi Inoue
    Yukio Ishida
    Nonlinear Dynamics, 2008, 52 : 103 - 113
  • [46] The Design Evolution of a Sensing and Force-Feedback Exoskeleton Robotic Glove for Hand Rehabilitation Application
    Ben-Tzvi, Pinhas
    Danoff, Jerome
    Ma, Zhou
    JOURNAL OF MECHANISMS AND ROBOTICS-TRANSACTIONS OF THE ASME, 2016, 8 (05):
  • [47] Nonlinear forced oscillation in a magnetically levitated system: the effect of the time delay of the electromagnetic force
    Inoue, Tsuyoshi
    Ishida, Yukio
    NONLINEAR DYNAMICS, 2008, 52 (1-2) : 103 - 113
  • [48] A force feedback system based on robot control
    Yang, ZH
    Jia, PF
    Zhao, YN
    Yang, YD
    PROCEEDINGS OF THE 4TH WORLD CONGRESS ON INTELLIGENT CONTROL AND AUTOMATION, VOLS 1-4, 2002, : 2860 - 2864
  • [49] An Interventional Surgical Robot System with Force Feedback
    Jia, Feiyu
    Guo, Shuxiang
    Wang, Yuan
    2015 IEEE INTERNATIONAL CONFERENCE ON ROBOTICS AND BIOMIMETICS (ROBIO), 2015, : 632 - 637
  • [50] User Centred Design and Development of an Educational Force-Feedback Haptic Game for Blind Students
    Petridou, Maria
    Blanchfield, Peter
    Alabadi, Reham
    Brailsford, Tim
    PROCEEDINGS OF THE 5TH EUROPEAN CONFERENCE ON GAMES BASED LEARNING, 2011, : 465 - 475
12345