Abstract
The identification of the initial contact (IC) and toe off (TO) events are crucial components of running gait analyses. To evaluate running gait in real-world settings, robust gait event detection algorithms that are based on signals from wearable sensors are needed. In this study, algorithms for identifying gait events were developed for accelerometers that were placed on the foot and low back and validated against a gold standard force plate gait event detection method. These algorithms were automated to enable the processing of large quantities of data by accommodating variability in running patterns. An evaluation of the accuracy of the algorithms was done by comparing the magnitude and variability of the difference between the back and foot methods in different running conditions, including different speeds, foot strike patterns, and outdoor running surfaces. The results show the magnitude and variability of the back-foot difference was consistent across running conditions, suggesting that the gait event detection algorithms can be used in a variety of settings. As wearable technology allows for running gait analyses to move outside of the laboratory, the use of automated accelerometer-based gait event detection methods may be helpful in the real-time evaluation of running patterns in real world conditions.
Highlights
Running gait analyses can be used for injury prevention and treatment, as well as in performance enhancement [1]
The variables of interest that are used for running gait analyses are basic spatiotemporal gait parameters or more advanced features that are related to movement quality determined for each stance phase, step, or stride, and these variables require the identification of initial contact (IC) and toe off (TO) events for each running step [6,7]
Automatic accelerometer-based methods of detecting running gait events are crucial for real-world running gait analyses
Summary
Running gait analyses can be used for injury prevention and treatment, as well as in performance enhancement [1]. The variables of interest that are used for running gait analyses are basic spatiotemporal gait parameters or more advanced features that are related to movement quality determined for each stance phase, step, or stride, and these variables require the identification of initial contact (IC) and toe off (TO) events for each running step [6,7]. Access to these variables allows for the clinician, coach, or runner to obtain fast and accurate feedback about running patterns [3], and they may be used in gait retraining programs to prevent injury [8]. Automatic accelerometer-based methods of detecting running gait events are crucial for real-world running gait analyses
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