Abstract
Correctly identifying gait phases is a prerequisite to achieve a spatial/temporal characterization of muscular recruitment during walking. Recent approaches have addressed this issue by applying machine learning techniques to treadmill-walking data. We propose a deep learning approach for surface electromyographic (sEMG)-based classification of stance/swing phases and prediction of the foot–floor-contact signal in more natural walking conditions (similar to everyday walking ones), overcoming constraints of a controlled environment, such as treadmill walking. To this aim, sEMG signals were acquired from eight lower-limb muscles in about 10.000 strides from 23 healthy adults during level ground walking, following an eight-shaped path including natural deceleration, reversing, curve, and acceleration. By means of an extensive evaluation, we show that using a multi layer perceptron to learn hidden features provides state of the art performances while avoiding features engineering. Results, indeed, showed an average classification accuracy of 94.9 for learned subjects and 93.4 for unlearned ones, while mean absolute difference ( ± S D ) between phase transitions timing predictions and footswitch data was 21.6 ms and 38.1 ms for heel-strike and toe off, respectively. The suitable performance achieved by the proposed method suggests that it could be successfully used to automatically classify gait phases and predict foot–floor-contact signal from sEMG signals during level ground walking.
Highlights
Electromyography is a widely-accepted tool able to provide an essential and original contribution to the characterization of the neuromuscular system [1]
To the best of our knowledge, this study is the first attempt to provide a reliable binary classification of level ground walking into stance and swing phases, by means of the application of deep learning techniques to surface electromyography (sEMG) signal
The present study proposed a suitable approach for classifying stance vs. swing and predicting the occurrence of the transition between phases, such as heel strike and toe off
Summary
Electromyography is a widely-accepted tool able to provide an essential and original contribution to the characterization of the neuromuscular system [1]. In order to achieve a spatial/temporal characterization of muscular recruitment during walking, gait events, such as the instant of foot-floor contact and ground clearance, need to be assessed. This process starts from the identification of the two main gait phases, stance and swing. The stance phase designates the entire period during which the foot is on the ground, while the swing phase is characterized by the time the foot is in the air for limb advancement. Stance and swing identify the functional subdivisions of total limb activity within the gait cycle [2], precisely identifying HS and TO events is important to analyze the gait activity
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