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Developing machine learning models to classify high and low fall risk based on vide recording of gaits: Utilising OpenPose a computer vision technique for features extraction.

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Developing Machine Learning Models for Fall Risk Prediction with Openpose: Utilizing video recordings of gaits

This project focuses on developing and evaluating machine learning models for accurately classifying individuals into high and low fall risk categories based on video recordings of gaits. Leveraging OpenPose as a computer vision technique for feature extraction, the study aims to enhance fall prediction strategies in healthcare settings. The project encompasses several key objectives: model development, evaluation of various machine learning techniques, identification of optimal classifiers, and contributing to effective fall prediction strategies. Support Vector Machine (SVM), K-Nearest Neighbours (KNN), Random Forest (RF), Decision Tree (DT), and Multi-Layer Perceptron (MLP) were the five machine learning classifiers used by the author. Among these, the Random Forest classifier exhibited superior performance, achieving a mean cross-validation accuracy of 93%, an accuracy of 93% on the test set, and an F1 score of 0.93, along with high sensitivity and specificity values of around 93.50% and 92.50%, respectively. The study exhibited a harmonious integration of heightened sensitivity and specificity, rendering it well-suited for utilization in medical contexts. The study also highlights the significance of feature selection. Notably, the velocity of key points emerged as the most influential feature, outperforming other features such as distance, angle, mean, and standard deviation of key points. This underscores the importance of a meticulous feature selection process in building robust fall risk prediction models. Comparing this approach with existing literature, the project outperforms deep learning techniques that rely on wearable sensors and traditional fall risk prediction which include the use of clinical exams, questionnaires, and physical evaluations, achieving superior accuracy, sensitivity, and specificity. This suggests that the approach, utilizing OpenPose and traditional machine learning models, offers a compelling alternative for fall risk prediction. Furthermore, the findings have broad societal implications, including improved fall risk prediction and personalized healthcare interventions, potentially reducing healthcare costs and enhancing the quality of life for elderly individuals. The work contributes to the intersection of technology and healthcare, offering innovative solutions for fall risk prediction. It underscores the importance of feature selection, model evaluation, and the integration of advanced technologies in addressing critical health challenges.

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Developing machine learning models to classify high and low fall risk based on vide recording of gaits: Utilising OpenPose a computer vision technique for features extraction.

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