Computer aided dynamic simulation of polycentric above-knee prosthesis

Effective restoration of walking and standing of handicapped humans is an important element which improves their quality of life. To meet such a need, the mechanical substitute or prosthesis must provide support and stability as well as behave like a normal limb for various activities. This thesi...

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Bibliographic Details
Main Author: Li, Teng.
Other Authors: Yeo, Song Huat
Format: Theses and Dissertations
Language:English
Published: 2008
Subjects:
Online Access:http://hdl.handle.net/10356/13431
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Institution: Nanyang Technological University
Language: English
Description
Summary:Effective restoration of walking and standing of handicapped humans is an important element which improves their quality of life. To meet such a need, the mechanical substitute or prosthesis must provide support and stability as well as behave like a normal limb for various activities. This thesis presents the study of the effectiveness of an above-knee prosthesis with a four-bar linkage polycentric knee joint and a magnetorheological damper controller. A kinematic model of human locomotion is described. Using the model, a series of studies on kinematics, inverse dynamics and dynamic analysis are conducted to simulate the gait of an amputee-prosthesis system. Kinematic analysis shows that the motion of the prosthetic shank can be made very close to that of normal walking motion. The stability of the four-bar linkage polycentric knee prosthesis is then analyzed in stance phase. It is shown that such a device has an elevated instantaneous center during weight bearing phase, and a high controllability in maintaining stability.