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Title:
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EXPRESSION AND AUTOMATIC RECOGNITION OF EXHAUSTION IN NATURAL WALKING |
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Author(s):
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Michelle Karg , Kolja Kühnlenz , Martin Buss , Wolfgang Seiberl , Ferdinand Tusker , Maren Schmeelk , Ansgar Schwirtz |
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ISBN:
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978-972-8924-59-1 |
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Editors:
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Katherine Blashki |
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Year:
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2008 |
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Edition:
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Single |
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Keywords:
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Recognition of Exhaustion, Gait Analysis, PCA, Fourier Transformation, Students T-Test, Walking |
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Type:
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Full Paper |
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First Page:
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165 |
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Last Page:
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172 |
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Language:
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English |
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Cover:
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Full Contents:
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click to dowload 
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Paper Abstract:
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Besides their function, human body movements express ones personality, intention and emotions, and give cues about a
persons condition.
This work focuses on the expression of exhaustion during natural walking. The gait of 14 participants was recorded using
3d optical tracking. Physical exhaustion was induced by performing full-body exercises at a rowing ergometer. A
students t-test analysis of predefined parameters like ankle stroke, range of motion (ROM) of human joints and center of
gravity (COG), revealed that, first, there exist significant changes between normal and exhausted gait patterns and,
secondly, the expression of exhaustion differs strongly among subjects.
The same data sets were analyzed with techniques from machine learning to investigate if automatic recognition of an
exhausted gait is possible. Principle Component Analysis (PCA) and Fourier Transformation were applied to the data set
for feature extraction. Linear Discriminant Analysis (LDA), Naive Bayes, K-Nearest Neighbor Clustering (KNN) and
Support Vector Machine (SVM) were compared for classification. Classification of exhaustion was achieved with various
classifiers, but recognition of an unknown gait is challenging. Without features standardized to normal gait, recognition
above chance was accomplished only with K-Nearest Neighbor Clustering. |
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