Towards real-time profiling of sprints using wearable pressure sensors

R. Harle; S. Taherian; M. Pias; G. Coulouris; A. Hopper; J. Cameron; J. Lasenby; G. Kuntze; I. Bezodis; G. Irwin; D. G. Kerwin

doi:10.1016/j.comcom.2011.03.019

Towards real-time profiling of sprints using wearable pressure sensors

R. Harle^*, S. Taherian, M. Pias, G. Coulouris, A. Hopper, J. Cameron, J. Lasenby, G. Kuntze, I. Bezodis, G. Irwin, D. G. Kerwin

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

27 Citations (Scopus)

Abstract

On-body sensor systems for sport are challenging since the sensors must be lightweight and small to avoid discomfort, and yet robust and highly accurate to withstand and capture the fast movements associated with sport. In this work, we detail our experience of building such an on-body system for track athletes. The paper describes the design, implementation and deployment of an on-body sensor system for sprint training sessions. We autonomously profile sprints to derive quantitative metrics to improve training sessions. Inexpensive Force Sensitive Resistors (FSRs) are used to capture foot events that are subsequently analysed and presented back to the coach. We show how to identify periods of sprinting from the FSR data and how to compute metrics such as ground contact time. We evaluate our system using force plates and show that millisecond-level accuracy is achievable when estimating contact times.

Original language	English
Pages (from-to)	650-660
Number of pages	11
Journal	Computer Communications
Volume	35
Issue number	6
DOIs	https://doi.org/10.1016/j.comcom.2011.03.019
Publication status	Published - 6 Apr 2011

Keywords

Data profiling
On-body sensor system
Sprinting

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10.1016/j.comcom.2011.03.019

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abstract = "On-body sensor systems for sport are challenging since the sensors must be lightweight and small to avoid discomfort, and yet robust and highly accurate to withstand and capture the fast movements associated with sport. In this work, we detail our experience of building such an on-body system for track athletes. The paper describes the design, implementation and deployment of an on-body sensor system for sprint training sessions. We autonomously profile sprints to derive quantitative metrics to improve training sessions. Inexpensive Force Sensitive Resistors (FSRs) are used to capture foot events that are subsequently analysed and presented back to the coach. We show how to identify periods of sprinting from the FSR data and how to compute metrics such as ground contact time. We evaluate our system using force plates and show that millisecond-level accuracy is achievable when estimating contact times.",

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AU - Pias, M.

AU - Coulouris, G.

AU - Hopper, A.

AU - Cameron, J.

AU - Lasenby, J.

AU - Kuntze, G.

AU - Bezodis, I.

AU - Irwin, G.

AU - Kerwin, D. G.

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AB - On-body sensor systems for sport are challenging since the sensors must be lightweight and small to avoid discomfort, and yet robust and highly accurate to withstand and capture the fast movements associated with sport. In this work, we detail our experience of building such an on-body system for track athletes. The paper describes the design, implementation and deployment of an on-body sensor system for sprint training sessions. We autonomously profile sprints to derive quantitative metrics to improve training sessions. Inexpensive Force Sensitive Resistors (FSRs) are used to capture foot events that are subsequently analysed and presented back to the coach. We show how to identify periods of sprinting from the FSR data and how to compute metrics such as ground contact time. We evaluate our system using force plates and show that millisecond-level accuracy is achievable when estimating contact times.

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KW - On-body sensor system

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Towards real-time profiling of sprints using wearable pressure sensors

Abstract

Keywords

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