Currently, wrist passive stiffness and active range of motion, two clinically relevant properties, are assessed using devices designed for rehabilitation. As a result, these devices do not have sufficient torque output and range of motion for complete wrist biomechanical assessment. To address these limitations, we are developing an actuation module specifically for assessing wrist biomechanical properties. Our device employs a serial kinematic exoskeletal architecture to directly interact with and measure wrist flexion/extension and radial/ulnar deviation. A Bowden cable-based actuation scheme, locating the motors off-board, was adopted for increased device range of motion and torque output compared with previous wrist exoskeletons. Additionally, the device was designed to incorporate a rotational elastic element at each joint, creating series elastic actuators, for accurate torque control and direct torque measurement. In this work, we present the design and demonstration of a 1-DOF module of the device, which can interact with a user’s wrist in flexion/extension, providing an important first step towards the control, evaluation, and application of the 2-DOF device.
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ASME 2018 Dynamic Systems and Control Conference
September 30–October 3, 2018
Atlanta, Georgia, USA
Conference Sponsors:
- Dynamic Systems and Control Division
ISBN:
978-0-7918-5189-0
PROCEEDINGS PAPER
A Bowden Cable-Based Series Elastic Actuation Module for Assessing the Human Wrist
Craig G. McDonald,
Craig G. McDonald
Rice University, Houston, TX
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Marcia K. O’Malley
Marcia K. O’Malley
Rice University, Houston, TX
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Andrew Erwin
Rice University, Houston, TX
Nick Moser
Rice University, Houston, TX
Craig G. McDonald
Rice University, Houston, TX
Marcia K. O’Malley
Rice University, Houston, TX
Paper No:
DSCC2018-8963, V001T07A001; 8 pages
Published Online:
November 12, 2018
Citation
Erwin, A, Moser, N, McDonald, CG, & O’Malley, MK. "A Bowden Cable-Based Series Elastic Actuation Module for Assessing the Human Wrist." Proceedings of the ASME 2018 Dynamic Systems and Control Conference. Volume 1: Advances in Control Design Methods; Advances in Nonlinear Control; Advances in Robotics; Assistive and Rehabilitation Robotics; Automotive Dynamics and Emerging Powertrain Technologies; Automotive Systems; Bio Engineering Applications; Bio-Mechatronics and Physical Human Robot Interaction; Biomedical and Neural Systems; Biomedical and Neural Systems Modeling, Diagnostics, and Healthcare. Atlanta, Georgia, USA. September 30–October 3, 2018. V001T07A001. ASME. https://doi.org/10.1115/DSCC2018-8963
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