Abstract
Nowadays, wearables-based Human Activity Recognition (HAR) systems represent a modern, robust, and lightweight solution to monitor athlete performance. However, user data variability is a problem that may hinder the performance of HAR systems, especially the cross-subject HAR models. Such a problem may have a lesser effect on the subject-specific model because it is a tailored model that serves a specific user; hence, data variability is usually low, and performance is often high. However, such a performance comes with a high cost in data collection and processing per user. Therefore, in this work, we present a personalized model that achieves higher performance than the cross-subject model while maintaining a lower data cost than the subject-specific model. Our personalization approach sources data from the crowd based on similarity scores computed between the test subject and the individuals in the crowd. Our dataset consists of 3750 concentration curl repetitions from 25 volunteers with ages and BMI ranging between 20–46 and 24–46, respectively. We compute 11 hand-crafted features and train 2 personalized AdaBoost models, Decision Tree (AdaBoost-DT) and Artificial Neural Networks (AdaBoost-ANN), using data from whom the test subject shares similar physical and single traits. Our findings show that the AdaBoost-DT model outperforms the cross-subject-DT model by 5.89%, while the AdaBoost-ANN model outperforms the cross-subject-ANN model by 3.38%. On the other hand, at 50.0% less of the test subject’s data consumption, our AdaBoost-DT model outperforms the subject-specific-DT model by 16%, while the AdaBoost-ANN model outperforms the subject-specific-ANN model by 10.33%. Yet, the subject-specific models achieve the best performances at 100% of the test subjects’ data consumption.
Highlights
Fatigue is a natural phenomenon that describes physiological impairments or lack of energy caused by prolonged activities [1]
RQ2: Can the personalization approach improve the performance of cross-subject models in detecting biceps muscle fatigue?
We propose the personalization approach to utilize data from the crowd based on the total similarity score between the test subject and the crowd
Summary
Fatigue is a natural phenomenon that describes physiological impairments or lack of energy caused by prolonged activities [1]. Often reported as one of the earliest, the invasive approach is used to detect fatigue by measuring the lactic acid in the bloodstream to determine the maximal muscle effort that a person can maintain without risk of injuries [6,7] Such an approach requires puncturing the skin, it often provides accurate information about fatigue conditions and acetate levels in muscles. Less painful but respiratory related, the cardio-respiratory approach monitors a person’s fatigue levels by measuring their circulatory and respiratory systems’ ability to supply oxygen to skeletal muscles during sustained physical exercise without risk of injuries [10,11]. Such an approach may require up to five pieces of equipment such as blood pressure cuff, Electrocardiograph (ECG), bicycle, mouthpiece, and saturation monitor. Previous work on marathon runners that uses data from the inertial measurement unit (IMU) to classify runners as being not-fatigued or fatigued shows that ROC Curves for the General Runners Models, trained using only the statistical features, range between (0.67 and 0.71) [15]
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