TY - JOUR
T1 - A method to analyze dynamics properties of transfemoral prosthesis
AU - Van Tuan, Le
AU - Ohnishi, Kengo
AU - Otsuka, Hiroshi
AU - Agarie, Yukio
AU - Yamamoto, Shinichiro
AU - Hanafusa, Akihiko
N1 - Publisher Copyright:
© 2016 Owned by the authors, published by EDP Sciences.
PY - 2016/1/29
Y1 - 2016/1/29
N2 - The methodto compute gait cycle forces and moments acting on the hip and knee joints of a lower limb with a trans-femoral prosthesis were investigated. A 3D model of the lower limb with prosthesis was created using CAD software and based on MRI data and real size dimension. The transfemoral prosthesis was modelled as a coupled of links with two revolution joints at hip and knee joint. This coupled link was connected to a bar with translation joint to description the distance walked of people in gait cycle. All parts of the prosthesis were measured and a full-size 3D model was created. The kinematics parameters of a lower limb with a prosthesis were determined from motioncaptured system data. The reaction force was measured with a force sensor in the footplate. The 3D model of the prosthesis was exported to MatlabSimmechanics. The input data which are kinematic parameters were applied to calculate the forces and moments acting on the joints. The results of this study present a method to analyse the dynamic properties of transfemoral prosthesis including speed of the gait. It could be used to calculate the load transferred from the socket to the residual limb. They could also be used to design the structure of a prosthesis and optimize the dynamic characteristics of such a prosthesis.
AB - The methodto compute gait cycle forces and moments acting on the hip and knee joints of a lower limb with a trans-femoral prosthesis were investigated. A 3D model of the lower limb with prosthesis was created using CAD software and based on MRI data and real size dimension. The transfemoral prosthesis was modelled as a coupled of links with two revolution joints at hip and knee joint. This coupled link was connected to a bar with translation joint to description the distance walked of people in gait cycle. All parts of the prosthesis were measured and a full-size 3D model was created. The kinematics parameters of a lower limb with a prosthesis were determined from motioncaptured system data. The reaction force was measured with a force sensor in the footplate. The 3D model of the prosthesis was exported to MatlabSimmechanics. The input data which are kinematic parameters were applied to calculate the forces and moments acting on the joints. The results of this study present a method to analyse the dynamic properties of transfemoral prosthesis including speed of the gait. It could be used to calculate the load transferred from the socket to the residual limb. They could also be used to design the structure of a prosthesis and optimize the dynamic characteristics of such a prosthesis.
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U2 - 10.1051/matecconf/20164002026
DO - 10.1051/matecconf/20164002026
M3 - Conference article
AN - SCOPUS:84969900692
SN - 2261-236X
VL - 40
JO - MATEC Web of Conferences
JF - MATEC Web of Conferences
M1 - 02026
T2 - 2015 International Conference on Mechanical Engineering and Electrical Systems, ICMES 2015
Y2 - 16 December 2015 through 18 December 2015
ER -