Title :
Human-inspired robotic exoskeleton (HuREx) for lower limb rehabilitation
Author :
McDaid, A. ; Kora, Kazuto ; Sheng Xie ; Lutz, Josef ; Battley, Mark
Author_Institution :
Dept. of Mech. Eng., Univ. of Auckland, Auckland, New Zealand
Abstract :
A robot exoskeleton which is inspired by the human musculoskeletal system has been developed for lower limb rehabilitation. The device was manufactured using a novel technique employing 3D printing and fiber reinforcement to make one-of-a-kind form fitting human-robot connections. Actuation of the exoskeleton is achieved using PMAs (pneumatic air muscles) and cable actuation to give the system inherent compliance while maintaining a very low mass. The entire system was modeled including a new hybrid model for PMAs. Simulation and experimental results for a force and impedance based trajectory tracking controller demonstrate the feasibility for using the HuREx system for gait and rehabilitation training.
Keywords :
medical robotics; muscle; patient rehabilitation; pneumatic actuators; trajectory control; 3D printing; HuREx; PMA; cable actuation; exoskeleton actuation; fiber reinforcement; force based trajectory tracking controller; form fitting human-robot connections; gait training; human musculoskeletal system; human-inspired robotic exoskeleton; impedance based trajectory tracking controller; lower limb rehabilitation; pneumatic air muscles; rehabilitation training; Atmospheric modeling; Exoskeletons; Force; Joints; Knee; Robots; Thigh; Rehabilitation; control; exoskeleton; human-inspired; modeling;
Conference_Titel :
Mechatronics and Automation (ICMA), 2013 IEEE International Conference on
Conference_Location :
Takamatsu
Print_ISBN :
978-1-4673-5557-5
DOI :
10.1109/ICMA.2013.6617887
