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Motion Recognition for Kinect Sensor Data Using Machine Learning Algorithm with PNF Patterns of Upper ExtremitiesMotion Recognition for Kinect Sensor Data Using Machine Learning Algorithm with PNF Patterns of Upper Extremities

Other Titles
Motion Recognition for Kinect Sensor Data Using Machine Learning Algorithm with PNF Patterns of Upper Extremities
Authors
김상빈김기원김준선
Issue Date
2015
Publisher
대한물리치료학회
Keywords
Kinect; Machine learning; Motion tracking; Proprioceptive neuromuscular facilitation
Citation
대한물리치료학회지, v.27, no.4, pp.214 - 220
Indexed
KCI
Journal Title
대한물리치료학회지
Volume
27
Number
4
Start Page
214
End Page
220
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/94973
ISSN
1229-0475
Abstract
Purpose: The purpose of this study was to investigate the availability of software for rehabilitation with the Kinect sensor by presenting an efficient algorithm based on machine learning when classifying the motion data of the PNF pattern if the subjects were wearing a patient gown. Methods: The motion data of the PNF pattern for upper extremities were collected by Kinect sensor. The data were obtained from 8 normal university students without the limitation of upper extremities. The subjects, wearing a T-shirt, performed the PNF patterns, D1 and D2 flexion, extensions, 30 times; the same protocol was repeated while wearing a patient gown to compare the classification performance of algorithms. For comparison of performance, we chose four algorithms, Naive Bayes Classifier, C4.5, Multilayer Perceptron, and Hidden Markov Model. The motion data for wearing a T-shirt were used for the training set, and 10 fold cross-validation test was performed. The motion data for wearing a gown were used for the test set. Results: The results showed that all of the algorithms performed well with 10 fold cross-validation test. However, when classifying the data with a hospital gown, Hidden Markov model (HMM) was the best algorithm for classifying the motion of PNF. Conclusion: We showed that HMM is the most efficient algorithm that could handle the sequence data related to time. Thus, we suggested that the algorithm which considered the sequence of motion, such as HMM, would be selected when developing software for rehabilitation which required determining the correctness of the motion.
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