Abstract
Muscle fatigue is required to be assessed in real-time to maintain the best physical condition, especially for sports and rehabilitation areas. In recent years, numerous studies proposed muscle fatigue estimation methods with non-invasive surface electromyography (sEMG). However, the previous approaches were limited to discerning whether muscle fatigue occurs and were unable to quantify the fatigue level due to individual differences in muscle characteristics. In this study, we propose a novel method for quantitative muscle fatigue estimation that is applicable for various people without individual calibration. Because muscle mass is closely related to muscular endurance, it is utilized as a standard parameter in our assessment process. We introduce a new concept of muscle fatigue score (MFS), based on the cosine similarity between muscle mass and representative fatigue indicators. The MFS exhibits a high correlation coefficient ( $\vert \text {R}\vert = 0.7398$ ) with key muscle characteristics compared to previous representative muscle fatigue indicators calculated from sEMG: mean frequency ( $\vert \text {R}\vert = 0.2848$ ), median frequency ( $\vert \text {R}\vert = 0.1972$ ), and low-frequency ratio ( $\vert \text {R}\vert = 0.0346$ ).
Highlights
Quantitative muscle fatigue estimation is necessary across various fields, such as fitness, sports, and rehabilitation [1]–[3]
Previous studies reported a distinct increase in the low-frequency components of surface electromyography (sEMG) after a certain amount of exercising, a large standard deviation of the results indicates that the accuracy and reliability are still insufficient for practical applications
We measured the sEMG during the leg curls and simultaneously surveyed the subjective muscle fatigue using a standard perceived exertion scale in Table 2 for each subject
Summary
Quantitative muscle fatigue estimation is necessary across various fields, such as fitness, sports, and rehabilitation [1]–[3]. Balancing training intensity and muscle condition is crucial for athletes, especially for substantial events such as the Olympics [4]. Quantitative muscle fatigue estimation can be of great help in achieving efficient training while maintaining muscle health. Muscle fatigue estimation has been used to aid in rehabilitation of various musculoskeletal disorders, such as spinal cord injury, temporomandibular disorder, and cerebral palsy [5]–[7]. Muscle fatigue was estimated by measuring lactic acid concentration in the blood; this cannot be measured in real time due to exsanguination [8]. Recent studies have focused on more the
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