• DocumentCode
    2492191
  • Title

    Elbow functional compensation using a lightweight magnetorheological clutch

  • Author

    Clemente, Alejandro Martín ; Caballero, Antonio Flores ; Rojas, Dolores Blanco ; Copaci, Dorin-Sabin ; Lorente, Luis Moreno

  • Author_Institution
    Dept. of Syst. & Autom. Eng., Univ. Carlos III de Madrid, Leganes, Spain
  • fYear
    2011
  • fDate
    Aug. 30 2011-Sept. 3 2011
  • Firstpage
    5215
  • Lastpage
    5218
  • Abstract
    There are many applications for which a patient needs functional compensation due to motor disorders in daily activities. Classic research has focused on robotics solutions in terms of actuators or motors, but the point of this paper is to analyze new solutions combining both biological and artificial structures, in order to improve standard developments. Nowadays wearable Robots are taking an important role in rehabilitation purposes, due to this issue lots of new designs are emerging, but most of them are not still prepared to be used in terms of autonomy, weight, etc. Under the Hybrid Neuropros-thetic and Neurorobotic devices for Functional Compensation and Rehabilitation (HYPER) project, new actuator technologies have been developed in order to improve the adaptability and portability of rehabilitation devices. The designed device is based on a lightweight magnetorheological (MR) clutch which is able to transmit torque from a motor to the injured joint. Though it is intended to work in human upper limb (elbow mainly), other future designs will also be studied for other human joints. Simulation results using Simulink®, MSC Adams®and MSMS®are reported to illustrate the viability of the proposed device.
  • Keywords
    magnetorheology; medical robotics; patient rehabilitation; prosthetics; torque; HYPER project; MSC Adams; Simulink; actuators; artificial structures; biological structures; elbow functional compensation; lightweight magnetorheological clutch; motor disorders; rehabilitation devices; torque; wearable robots; Actuators; Elbow; Humans; Joints; Robots; Shafts; Torque; Clutch; Co-simulation; Functional compensation; MR fluid; MSMS®; Rehabilitation; Elbow Joint; Equipment Failure Analysis; Humans; Magnetics; Man-Machine Systems; Motion Therapy, Continuous Passive; Movement Disorders; Orthotic Devices; Prosthesis Design; Range of Motion, Articular; Robotics; Therapy, Computer-Assisted;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Engineering in Medicine and Biology Society, EMBC, 2011 Annual International Conference of the IEEE
  • Conference_Location
    Boston, MA
  • ISSN
    1557-170X
  • Print_ISBN
    978-1-4244-4121-1
  • Electronic_ISBN
    1557-170X
  • Type

    conf

  • DOI
    10.1109/IEMBS.2011.6091290
  • Filename
    6091290