Fast reconstruction of centre of mass and foot kinematics during a single-legged horizontal jump: A point-cloud processing approach

S.J. McLaren; W. Evans; B. Galna; M.D. Portas; M. Weston; I.R. Spears

doi:10.1016/j.jbiomech.2022.111015

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Fast reconstruction of centre of mass and foot kinematics during a single-legged horizontal jump: A point-cloud processing approach

Journal article

Peer reviewed

Fast reconstruction of centre of mass and foot kinematics during a single-legged horizontal jump: A point-cloud processing approach

S.J. McLaren, W. Evans, B. Galna, M.D. Portas, M. Weston and I.R. Spears

Journal of Biomechanics, Vol.135, Art. 111015

2022

DOI: https://doi.org/10.1016/j.jbiomech.2022.111015

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Abstract

Horizontal jumps are discrete, fast, over-ground movements requiring coordination of the centre of mass (CoM) and base of support and are routinely assessed in sports settings. There is currently no biomechanics-based system to aid in their quick and objective large-scale assessment. We describe a practical system combining a single low-cost depth-sensing camera and point-cloud processing (PCP) to capture whole-body CoM and foot kinematics. Fourteen participants performed 10 single-leg horizontal jumps for distance. Foot displacement, CoM displacement, CoM peak velocity and CoM peak acceleration in the anterior-posterior direction of movement were compared with a reference 15-segment criterion model, captured concurrently using a nine-camera motion capture system (Vicon Motion Systems, UK). Between-system Pearson’s correlations were very-large to near-perfect (n = 140; foot displacement = 0.99, CoM displacement = 0.98, CoM peak velocity = 0.97, CoM peak acceleration = 0.79), with mean biases being trivial–small (-0.07 cm [0.12%], 3.8 cm [3.5%], 0.03 m·s−1 [1.6%], 0.42 m·s−2 [7%], respectively) and typical errors being trivial–small for displacement (foot: 0.92 cm [0.8%]; CoM: 3.8 cm [3.4%]) and CoM peak velocity (0.07 m·s−1 [4.3%]), and large for CoM peak acceleration (0.72 m·s−2 [15%]). Limits of agreement were −1.9 to 2.0 cm for foot displacement, −11.3 to 3.6 cm for CoM displacement, −0.17 to 0.12 m·s−1 for CoM peak velocity and −2.28 to 1.43 m·s−2 for CoM peak acceleration. The practical system captured CoM and foot kinematics during horizontal jumps with acceptable precision. Further work to improve estimates of CoM accelerations and different populations are warranted.

Details

Title: Fast reconstruction of centre of mass and foot kinematics during a single-legged horizontal jump: A point-cloud processing approach
Authors/Creators: S.J. McLaren (Author/Creator)
W. Evans (Author/Creator)
B. Galna (Author/Creator)
M.D. Portas (Author/Creator)
M. Weston (Author/Creator)
I.R. Spears (Author/Creator)
Publication Details: Journal of Biomechanics, Vol.135, Art. 111015
Publisher: Elsevier Limited
Identifiers: 991005541254507891
Copyright: © 2022 Published by Elsevier Ltd.
Murdoch Affiliation: College of Science, Health, Engineering and Education
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 1 Clinical & Life Sciences; 1.82 Gait & Posture; 1.82.263 Gait and Balance
Web Of Science research areas: Biophysics; Engineering, Biomedical
ESI research areas: Molecular Biology & Genetics