Initial Investigation of a Self-Adjusting Wrist Control System to Maintain Prosthesis Terminal Device Orientation Relative to the Ground Reference Frame
| Autor: | Glyn Murgatroyd, Dylan J. A. Brenneis, Patrick M. Pilarski, Michael R. W. Dawson, Jason P. Carey |
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| Rok vydání: | 2018 |
| Předmět: |
030506 rehabilitation
InformationSystems_INFORMATIONINTERFACESANDPRESENTATION(e.g. HCI) Computer science Work (physics) Wrist Task (project management) body regions 03 medical and health sciences 0302 clinical medicine medicine.anatomical_structure Forearm Control system medicine Task analysis 0305 other medical science Robotic arm 030217 neurology & neurosurgery Simulation Reference frame |
| Zdroj: | BioRob |
| DOI: | 10.1109/biorob.2018.8487932 |
| Popis: | Lack of adequate wrist control in prostheses forces people with upper limb amputations to use compensatory movements that eventually result in overuse injuries. This is partly because conventional control of myoelectric wrists involves switching between directly controlling the wrist and fixing the wrist relative to the forearm. We propose that by implementing a wrist that is able to maintain the hand's orientation relative to the ground reference frame, here termed a self-adjusting wrist, users may see benefits in terms of both compensatory movements and ease of control. In this design study, we describe a simple initial implementation of a self-adjusting wrist. We then introduce and compare five control methods for the system. These methods were tested with six able-bodied participants who used a desk-mounted robotic arm to perform an object transfer and manipulation task. Quantitative and qualitative analyses coupled with user feedback suggest that a self-adjusting wrist may reduce task completion time and number of control interactions, and increase user satisfaction compared to conventional switching-based control. Our results indicate that use of a momentary switch to toggle a robotic hand's orientation between being fixed to the ground reference frame and being either fixed to the forearm reference frame or employing direct wrist control may be the best choice for a self-adjusting wrist. More broadly, by considering a wrist that automatically and continually orients itself to the user and their environment, this work contributes insight about how prostheses and other assistive robotic technology may intelligently adapt in real time to support the daily-life tasks faced by their users. |
| Databáze: | OpenAIRE |
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