RESEARCH ON MOTOR LEARNING AND CONTROL OF MULTI-DOF BIONIC MANIPULATOR

被引:0
|
作者
Lan, Jianjun [1 ]
机构
[1] Fujian Vocational and Technical College of Water Conservancy and Electric Power, School of Electric Power Engineering, Yongan,366000, China
来源
International Journal of Robotics and Automation | 2024年 / 39卷 / 02期
关键词
Motion planning of robotic systems needs to be engineered by professionals; and how to quickly and simply adjust the motion of the manipulator when external tasks change is of major importance to us. We present an action planning method by only using magnetic and inertial measurement unit (MIMU); the entire system consists of a human arm attitude measurement unit and a bionic manipulator control unit. Robotic manipulators can perform fast action learning from the pose data of the operator’s arm instead of complex motion redesigns. The Kalman filter algorithm is used in inertial sensor data fusion; and the fusion of the values recorded from the inertial sensors can be decomposed into the rotation angles of the servos using a rigid body transformation using the Lie group theory. Evaluation tests were performed separately in the LabVIEW platform and on a real robotic system; and the results from the real-time tests show that the method successfully reproduces the movements performed by the operator. © 2024 Acta Press. All rights reserved;
D O I
10.2316/J.2024.206-0835
中图分类号
学科分类号
摘要
引用
收藏
页码:87 / 93
相关论文
共 50 条
  • [21] Antagonistic Control of Multi-DOF Joint
    Koganezawa, Koichi
    Takami, Gaku
    Watanabe, Masakaki
    [J]. 2012 IEEE/RSJ INTERNATIONAL CONFERENCE ON INTELLIGENT ROBOTS AND SYSTEMS (IROS), 2012, : 2895 - 2900
  • [22] Manipulating a Multi-DOF Robot Manipulator via Virtual Tools
    Hsieh, Mu-Cheng
    Young, Kuu-Young
    [J]. JOURNAL OF INFORMATION SCIENCE AND ENGINEERING, 2014, 30 (04) : 1209 - 1225
  • [23] A Multi-DOF Robotic Arm Manipulator Simulation and Visualization Platform
    Zhang, Yuzhu
    Meng, Xin
    Pan, Zhongshi
    [J]. MANUFACTURING PROCESS AND EQUIPMENT, PTS 1-4, 2013, 694-697 : 1662 - 1666
  • [24] Inverse Kinematics Solution and Analysis for multi-DOF Mobile Manipulator
    Gao, Xiaoshan
    Yan, Liang
    Zhao, Peiran
    Du, Nannan
    Bu, Suwan
    [J]. 2022 IEEE 17TH CONFERENCE ON INDUSTRIAL ELECTRONICS AND APPLICATIONS (ICIEA), 2022, : 1300 - 1304
  • [25] A Model of Multi-DOF Microrobot Manipulator Using Artificial Muscle
    Popa, Ilie
    Zaflu, Adrian
    [J]. PROCEEDINGS OF THE 1ST WSEAS INTERNATIONAL CONFERENCE ON BIOMEDICAL ELECTRONICS AND BIOMEDICAL INFORMATICS, 2008, : 97 - +
  • [26] Stiffness Control of Multi-DOF Joint
    Koganezawa, Koichi
    Yamashita, Hiroshi
    [J]. 2009 IEEE-RSJ INTERNATIONAL CONFERENCE ON INTELLIGENT ROBOTS AND SYSTEMS, 2009, : 363 - 370
  • [27] Effective manipulation for a multi-DOF robot manipulator in laboratory environments
    Hsieh, Mu-Cheng
    Young, Kuu-Young
    [J]. JOURNAL OF THE CHINESE INSTITUTE OF ENGINEERS, 2013, 36 (05) : 566 - 576
  • [28] Multi-DOF Forceps Manipulator for an Approach to the dorsal aspect of an Organ
    Iwamori, Yoriko
    Okamoto, Jun
    Fujie, Masakatsu G.
    [J]. WORLD CONGRESS ON MEDICAL PHYSICS AND BIOMEDICAL ENGINEERING 2006, VOL 14, PTS 1-6, 2007, 14 : 4164 - +
  • [29] Development of anthropomorphic multi-DOF master-slave manipulator
    Kumra, Sulabh
    Mehta, Shilpa
    Singh, Ramandeep
    [J]. PROCEEDINGS OF THE 2013 3RD IEEE INTERNATIONAL ADVANCE COMPUTING CONFERENCE (IACC), 2013, : 1631 - 1635
  • [30] Development of multi-DOF brain retract manipulator with safety method
    Okamoto, J
    Lida, M
    Nambu, K
    Fujie, MG
    Umezu, M
    [J]. IROS 2003: PROCEEDINGS OF THE 2003 IEEE/RSJ INTERNATIONAL CONFERENCE ON INTELLIGENT ROBOTS AND SYSTEMS, VOLS 1-4, 2003, : 2594 - 2599
12345