Title :
A Biomechanical Model to Aid Robot-Assisted Therapy of Upper Limb Impairment
Author :
Abdullar, H.A. ; Tarry, Cole ; Mittal, Gauri S. ; Abderrahim, Mohamed
Author_Institution :
Sch. of Eng., Guelph Univ., Ont.
Abstract :
This paper describes the design, and application of a dynamic bio-mechanical model for assessing and monitoring trajectory, position, orientation, force and torque generated by movements of the whole upper limb during a robot-assisted therapy. The individualised segment inertial parameters are based on anthropometric measurements. The model performs inverse dynamic analysis of the recorded arm´s movements to calculate reaction forces and moments acting about the 3-DOF shoulder and 2-DOF elbow joints. A real time fused biofeedback of a 6-DOF force sensor and 3D pose sensors support the model. The model input and output parameters are stored in the patients´ database, which is a part of the rehabilitation information system. Our experimental results confirm the nature of the treatment exercise taught to the robotic systems
Keywords :
force sensors; handicapped aids; medical robotics; patient rehabilitation; robot dynamics; torque; 2-DOF elbow joints; 3-DOF shoulder; 3D pose sensors; anthropometric measurements; biomechanical model; dynamic biomechanical model; force sensor; inertial parameters; inverse dynamic analysis; monitoring trajectory; real time fused biofeedback; rehabilitation information system; robot-assisted therapy; upper limb impairment; Biological control systems; Biosensors; Elbow; Force sensors; Inverse problems; Medical treatment; Monitoring; Performance analysis; Robot sensing systems; Torque;
Conference_Titel :
IEEE Industrial Electronics, IECON 2006 - 32nd Annual Conference on
Conference_Location :
Paris
Print_ISBN :
1-4244-0390-1
DOI :
10.1109/IECON.2006.347297
