Human Postural Feedback Response Described by Eigenvector

Abstract-Many studies of human postural control use data from video-captured discrete marker locations to analyze via complex inverse kinematic reconstruction the postural responses to a perturbation. We propose here that Principal Component Analysis of this marker data provides a simpler way to get an overview of postural perturbation responses. Using short (1, 4, and 16 mm) anterior platform step translations that are on the order of a young adult's normal sway path length, we find that the low order eigenmodes (which we call eigenposes) of the time-series marker data correspond dominantly to a simple anterior-posterior pendular motion about the ankle, and secondarily (and with less energy) to hip flexion and extension. A third much weaker mode is occasionally seen that is represented by knee flexion.

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Eigenposes: Using principal components to describe body configuration for analysis of postural control dynamics

Skufca

Bollt

Pilkar

et al. 2010

The 2010 International Joint Conference on Neural Networks (IJCNN)

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Human Postural Feedback Response Described by Eigenvector

Cited by 1 publication

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Eigenposes: Using principal components to describe body configuration for analysis of postural control dynamics

Eigenposes: Using principal components to describe body configuration for analysis of postural control dynamics

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