Hong, R.; Xing, Q.; Shen, Y.; Shen, Y. Effective Quantization Evaluation Method of Functional Movement Screening with Improved Gaussian Mixture Model. Appl. Sci.2023, 13, 7487.
Hong, R.; Xing, Q.; Shen, Y.; Shen, Y. Effective Quantization Evaluation Method of Functional Movement Screening with Improved Gaussian Mixture Model. Appl. Sci. 2023, 13, 7487.
Hong, R.; Xing, Q.; Shen, Y.; Shen, Y. Effective Quantization Evaluation Method of Functional Movement Screening with Improved Gaussian Mixture Model. Appl. Sci.2023, 13, 7487.
Hong, R.; Xing, Q.; Shen, Y.; Shen, Y. Effective Quantization Evaluation Method of Functional Movement Screening with Improved Gaussian Mixture Model. Appl. Sci. 2023, 13, 7487.
Abstract
Background: Functional Movement Screening (FMS) allows for rapid assessment of an individual’s physical activity level and timely detection of sports injury risk. However, traditional functional movement screening often requires on-site assessment by experts, which is time-consuming and prone to subjective bias. Therefore, the study of automated functional movement screening has become increasingly important. Methods: In this study, we propose an automated assessment method for FMS based on the improved Gaussian Mixture Model (GMM). First, the oversampling of minority samples is conducted, the movement features are manually extracted from the FMS dataset collected with two Azure Kinect depth sensors, then we train the Gaussian mixture model with different scores (1 point, 2 points, 3 points) of feature data separately, finally, we conducted FMS assessment by the Maximum Likelihood estimation. Results: The improved GMM has a higher scoring accuracy (Improved GMM:0.8) compared to other models (Traditional GMM=0.38, Adaboost.M1=0.7, Naïve-Bayes=0.75), and the scoring results of improved GMM have a high level of agreement with the expert scoring (kappa=0.67). Conclusions: The results show that the proposed method based on the improved Gaussian mixture model can effectively perform the FMS assessment task and it is potentially feasible to use depth cameras for FMS assessment.
Computer Science and Mathematics, Artificial Intelligence and Machine Learning
Copyright:
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