Detection of ground contact times with inertial sensors in elite 100-m sprints under competitive field conditions
Permanent lenke
https://hdl.handle.net/10037/24107Dato
2021-11-04Type
Journal articleTidsskriftartikkel
Peer reviewed
Sammendrag
This study describes a method for extracting the stride parameter ground contact time
(GCT) from inertial sensor signals in sprinting. Five elite athletes were equipped with inertial
measurement units (IMU) on their ankles and performed 34 maximum 50 and 100-m sprints. The
GCT of each step was estimated based on features of the recorded IMU signals. Additionally, a
photo-electric measurement system covered a 50-m corridor of the track to generate ground truth
data. This corridor was placed interchangeably at the first and the last 50-ms of the track. In total, 863
of 889 steps (97.08%) were detected correctly. On average, ground truth data were underestimated
by 3.55 ms. The root mean square error of GCT was 7.97 ms. Error analyses showed that GCT
at the beginning and the end of the sprint was classified with smaller errors. For single runs the
visualization of step-by-step GCT was demonstrated as a new diagnostic instrument for sprint
running. The results show the high potential of IMUs to provide the temporal parameter GCT for
elite-level athletes.
Forlag
MDPISitering
Blauberger, Horsch, Lames. Detection of ground contact times with inertial sensors in elite 100-m sprints under competitive field conditions. Sensors. 2021;21(21)Metadata
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