Redundancy control and optimization of a 9-DoF wheelchair-mounted robotic arm system

被引:0
作者
Alqasemi, Redwan [1 ]
Dubey, Rajiv [1 ]
机构
[1] Univ S Florida, Dept Mech Engn, Tampa, FL 33620 USA
来源
2007 INTERNATIONAL SYMPOSIUM ON COMPUTATIONAL INTELLIGENCE IN ROBOTICS AND AUTOMATION | 2007年
关键词
rehabilitation; redundancy; robot; ADL;
D O I
暂无
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
A wheelchair-mounted robotic arm (WMRA) system was designed and built to meet the needs of mobility impaired persons with limitations of upper extremities, and to exceed the capabilities of current devices of this type. The control of this 9-DoF system expands on the conventional control methods and combines the 7-DoF robotic arm control with the 2-DoF power wheelchair control. The 3-degrees of redundancy are optimized to effectively perform activities of daily living (ADLs) and overcome singularities, joint limits and some workspace limitations. The control system is designed for teleoperated or autonomous coordinated Cartesian control, and it offers expandability for future research, such as voice or sip and puff control operations and sensor assist functions.
引用
收藏
页码:324 / +
页数:2
相关论文
共 32 条
  • [21] 4-DOF Redundant Haptic Interface: Redundancy Coordination Method for Control System Design
    Righettini, Paolo
    Strada, Roberto
    Teoldi, Cristian
    2016 11TH FRANCE-JAPAN & 9TH EUROPE-ASIA CONGRESS ON MECHATRONICS (MECATRONICS) / 17TH INTERNATIONAL CONFERENCE ON RESEARCH AND EDUCATION IN MECHATRONICS (REM), 2016, : 342 - 347
  • [22] Independent Joint Control of a 3-DOF Robotic System Using PI Controller
    Sado, F.
    Sidek, Shahrul Na'im
    Yusuf, Hazlina M.
    2014 INTERNATIONAL CONFERENCE ON COMPUTER AND COMMUNICATION ENGINEERING (ICCCE), 2014, : 115 - 118
  • [23] Architecture of a Wheelchair Control System for Disabled People: Towards Multifunctional Robotic Solution with Neurobiological Interfaces
    Karpov, V. E.
    Malakhov, D. G.
    Moscowsky, A. D.
    Rovbo, M. A.
    Sorokoumov, P. S.
    Velichkovsky, B. M.
    Ushakov, V. L.
    SOVREMENNYE TEHNOLOGII V MEDICINE, 2019, 11 (01) : 90 - 100
  • [24] Robotic Arm Assistance System Based on Simple Stereo Matching and Q-Learning Optimization
    Hsieh, Yi-Zeng
    Lin, Shih-Syun
    IEEE SENSORS JOURNAL, 2020, 20 (18) : 10945 - 10954
  • [25] Mars surveyor '98 lander MVACS robotic arm control system design concepts
    Bonitz, RG
    1997 IEEE INTERNATIONAL CONFERENCE ON ROBOTICS AND AUTOMATION - PROCEEDINGS, VOLS 1-4, 1997, : 2465 - 2470
  • [26] Reliability redundancy optimization allocation of integrated monitoring and control system of deep-sea drilling rig
    College of Mechanical and Electronic Engineering in China University of Petroleum, Qingdao
    266580, China
    不详
    100083, China
    Zhongguo Shiyou Daxue Xuebao (Ziran Kexue Ban), 1 (128-135): : 128 - 135
  • [27] Control System of Robotic Arm Based on Steady-State Visual Evoked Potentials in Augmented Reality Scenarios
    Chen, Lingling
    Chen, Pengfei
    Xie, Liang
    Xu, Minpeng
    Xu, Dengke
    Yan, Huijiong
    Luo, Zhiguo
    Yan, Ye
    Yin, Erwei
    JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY, 2022, 44 (02) : 496 - 506
  • [28] Application of Artificial Neuromolecular System in Robotic Arm Control to Assist Progressive Rehabilitation for Upper Extremity Stroke Patients
    Chen, Jong-Chen
    Cheng, Hao-Ming
    ACTUATORS, 2024, 13 (09)
  • [29] Adaptive asynchronous control system of robotic arm based on augmented reality-assisted brain-computer interface
    Chen, Lingling
    Chen, Pengfei
    Zhao, Shaokai
    Luo, Zhiguo
    Chen, Wei
    Pei, Yu
    Zhao, Hongyu
    Jiang, Jing
    Xu, Minpeng
    Yan, Ye
    Yin, Erwei
    JOURNAL OF NEURAL ENGINEERING, 2021, 18 (06)
  • [30] Using Artificial Neuro-Molecular System in Robotic Arm Motion Control-Taking Simulation of Rehabilitation as an Example
    Chen, Jong-Chen
    SENSORS, 2022, 22 (07)
1234