期刊
SENSORS
卷 23, 期 4, 页码 -出版社
MDPI
DOI: 10.3390/s23041761
关键词
IMU; sprint; high-level athletes; anteroposterior acceleration; step time
In this study, a developed instrument encompassing an IMU was used to assess sprinting and analyze athlete performance. The number of steps, ground contact time, flight time, and step time were determined using a high-speed camera as a reference. The acceleration components and acceleration ratio were correlated with the performance achieved in each split time. The study revealed that the IMU device had high accuracy in identifying step counts and showed a correlation between step time and performance. The importance rating for this study is 8 out of 10.
In this study, we aimed to assess sprinting using a developed instrument encompassing an inertial measurement unit (IMU) in order to analyze athlete performance during the sprint, as well as to determine the number of steps, ground contact time, flight time, and step time using a high-speed camera as a reference. Furthermore, we correlated the acceleration components (XYZ) and acceleration ratio with the performance achieved in each split time obtained using photocells. Six athletes (four males and two females) ran 40 m with the IMU placed on their fifth lumbar vertebra. The accuracy was measured through the mean error (standard deviation), correlation (r), and comparison tests. The device could identify 88% to 98% of the number of steps. The GCT, flight time, and step time had mean error rates of 0.000 (0.012) s, 0.010 (0.011) s, and 0.009 (0.009) s when compared with the high-speed camera, respectively. The step time showed a correlation rate of r = 0.793 (p = 0.001) with no statistical differences, being the only parameter with high accuracy. Additionally, we showed probable symmetries, and through linear regression models identified that higher velocities result in the maximum anteroposterior acceleration, mainly over 0-40 m. Our device based on a Wi-Fi connection can determine the step time with accuracy and can show asymmetries, making it essential for coaches and medical teams. A new feature of this study was that the IMUs allowed us to understand that anteroposterior acceleration is associated with the best performance during the 40 m sprint test.
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