Affiliation:
1. Department of Biomedical Engineering, City University of Hong Kong , Kowloon Tong 999077, Hong Kong
Abstract
Abstract
This chapter presents the design and preliminary evaluation of a user-adaptive ankle foot orthosis (AFO). To begin with, according to structural characteristics of the human ankle as well as foot dimensions of an able-bodied subject, the ankle orthotic device is conceived. Then, based on a common two-degree-of-freedom (DOF) foot model, a coupled AFO–human system is setup. Further, the system's DOFs are derived; the device's mechanism of user adaptation is analyzed and verified using adams software. After that, the layout of a portable orthotic system, as well as a smart insole that detects gait phases, is illustrated. Finally, the orthotic system is tested on the aforementioned subject. Results show that, during the AFO-based walking with assistive torque, the foot's plantarflexion level before the swing stage and dorsiflexion level in the swing stage approximately increase by 3 deg and 4 deg, respectively, relative to the condition of AFO-based walking without assistive torque. Therefore, the orthosis has the potential to aid body propulsion and control toe clearance.
Subject
Biomedical Engineering,Medicine (miscellaneous)
Reference31 articles.
1. An Intrinsically Compliant Robotic Orthosis for Treadmill Training;Med. Eng. Phys.,2012
2. Mechanical Design and Trajectory Planning of a Lower Limb Rehabilitation Robot With a Variable Workspace;Int. J. Adv. Rob. Syst.,2018
3. Adaptable Robotic Platform for Gait Rehabilitation and Assistance: Design Concepts and Applications;Exoskeleton Robots Rehabilitation Healthcare Devices,2020
4. Omnidirectional Platforms for Gait Training: Admittance-Shaping Control for Enhanced Mobility;J. Intell. Rob. Syst.,2021
5. A Portable Powered Ankle-Foot Orthosis for Rehabilitation;J. Rehabil. Res. Develop.,2011