Quantitative evaluation of unrestrained human gait on change in walking velocity

In human gait motion analysis, which is one useful method for efficient physical rehabilitation to define various quantitative evaluation indices, ground reaction force, joint angle and joint loads are measured during gait. To obtain these data as unrestrained gait measurement, a novel gait motion a...

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Bibliographic Details
Main Authors: Makino, Yuta, Tsujiuchi, Nobutaka, Ito, Akihito, Koizumi, Takayuki, Nakamura, Shota, Matsuda, Yasushi, Tsuchiya, Youtaro, Hayashi, Yuichiro
Format: Conference Proceeding
Language:English
Subjects:
Force
Force measurement
Joints
Knee
Legged locomotion
Mobile communication
Sensors
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Summary:In human gait motion analysis, which is one useful method for efficient physical rehabilitation to define various quantitative evaluation indices, ground reaction force, joint angle and joint loads are measured during gait. To obtain these data as unrestrained gait measurement, a novel gait motion analysis system using mobile force plates and attitude sensors has been developed. On the other hand, a human maintains a high correlation among the motion of all joints during gait. The analysis of the correlation in the recorded joint motion extracts a few simultaneously activating segmental coordination patterns, and the structure of the intersegmental coordination is attracting attention to an expected relationship with a control strategy. However, when the evaluation method using singular value decomposition has been applied to joint angles of the lower limb as representative kinematic parameters, joint moments related to the rotational motion of the joints have not yet been considered. In this paper, joint moments as kinetic parameters applied on the lower limb during gait of a normal subject and a trans-femoral amputee are analyzed under change in walking velocity by the wearable gait motion analysis system, and the effectiveness for quantitatively evaluate the rotational motion pattern in the joints of the lower limb by using joint moments is validated.
ISSN:1094-687X
1558-4615
2694-0604
DOI:10.1109/EMBC.2014.6944135