Accuracy of GPS devices for measuring high-intensity running in field-based team sports

Ermanno Rampinini; G Alberti; Matteo Fiorenza; M Riggio; R Sassi; T O Borges; A J Coutts

doi:10.1055/s-0034-1385866

Accuracy of GPS devices for measuring high-intensity running in field-based team sports

Ermanno Rampinini^*, G Alberti, Matteo Fiorenza, M Riggio, R Sassi, T O Borges, A J Coutts

^*Corresponding author for this work

134 Citations (Scopus)

Abstract

We compared the accuracy of 2 GPS systems with different sampling rates for the determination of distances covered at high-speed and metabolic power derived from a combination of running speed and acceleration. 8 participants performed 56 bouts of shuttle intermittent running wearing 2 portable GPS devices (SPI-Pro, GPS-5 Hz and MinimaxX, GPS-10 Hz). The GPS systems were compared with a radar system as a criterion measure. The variables investigated were: total distance (TD), high-speed distance (HSR > 4.17 m·s^-1), very high-speed distance (VHSR > 5.56 m·s^-1), mean power (Pmean), high metabolic power (HMP > 20 W·kg^-1) and very high metabolic power (VHMP > 25 W·kg^-1). GPS-5 Hz had low error for TD (2.8 %) and Pmean (4.5 %), while the errors for the other variables ranged from moderate to high (7.5-23.2 %). GPS-10 Hz demonstrated a low error for TD (1.9 %), HSR (4.7 %), Pmean (2.4 %) and HMP (4.5 %), whereas the errors for VHSR (10.5 %) and VHMP (6.2 %) were moderate. In general, GPS accuracy increased with a higher sampling rate, but decreased with increasing speed of movement. Both systems could be used for calculating TD and Pmean, but they cannot be used interchangeably. Only GPS-10 Hz demonstrated a sufficient level of accuracy for quantifying distance covered at higher speeds or time spent at very high power.

Original language	English
Journal	International Journal of Sports Medicine
Volume	36
Issue number	1
Pages (from-to)	49-53
Number of pages	5
ISSN	0172-4622
DOIs	https://doi.org/10.1055/s-0034-1385866
Publication status	Published - 2015
Externally published	Yes

Keywords

Acceleration
Metabolic power
Soccer
Team sport
Training load monitoring

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10.1055/s-0034-1385866

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title = "Accuracy of GPS devices for measuring high-intensity running in field-based team sports",

abstract = "We compared the accuracy of 2 GPS systems with different sampling rates for the determination of distances covered at high-speed and metabolic power derived from a combination of running speed and acceleration. 8 participants performed 56 bouts of shuttle intermittent running wearing 2 portable GPS devices (SPI-Pro, GPS-5 Hz and MinimaxX, GPS-10 Hz). The GPS systems were compared with a radar system as a criterion measure. The variables investigated were: total distance (TD), high-speed distance (HSR > 4.17 m·s-1), very high-speed distance (VHSR > 5.56 m·s-1), mean power (Pmean), high metabolic power (HMP > 20 W·kg-1) and very high metabolic power (VHMP > 25 W·kg-1). GPS-5 Hz had low error for TD (2.8 %) and Pmean (4.5 %), while the errors for the other variables ranged from moderate to high (7.5-23.2 %). GPS-10 Hz demonstrated a low error for TD (1.9 %), HSR (4.7 %), Pmean (2.4 %) and HMP (4.5 %), whereas the errors for VHSR (10.5 %) and VHMP (6.2 %) were moderate. In general, GPS accuracy increased with a higher sampling rate, but decreased with increasing speed of movement. Both systems could be used for calculating TD and Pmean, but they cannot be used interchangeably. Only GPS-10 Hz demonstrated a sufficient level of accuracy for quantifying distance covered at higher speeds or time spent at very high power.",

keywords = "Acceleration, Metabolic power, Soccer, Team sport, Training load monitoring",

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AU - Rampinini, Ermanno

AU - Alberti, G

AU - Fiorenza, Matteo

AU - Riggio, M

AU - Sassi, R

AU - Borges, T O

AU - Coutts, A J

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N2 - We compared the accuracy of 2 GPS systems with different sampling rates for the determination of distances covered at high-speed and metabolic power derived from a combination of running speed and acceleration. 8 participants performed 56 bouts of shuttle intermittent running wearing 2 portable GPS devices (SPI-Pro, GPS-5 Hz and MinimaxX, GPS-10 Hz). The GPS systems were compared with a radar system as a criterion measure. The variables investigated were: total distance (TD), high-speed distance (HSR > 4.17 m·s-1), very high-speed distance (VHSR > 5.56 m·s-1), mean power (Pmean), high metabolic power (HMP > 20 W·kg-1) and very high metabolic power (VHMP > 25 W·kg-1). GPS-5 Hz had low error for TD (2.8 %) and Pmean (4.5 %), while the errors for the other variables ranged from moderate to high (7.5-23.2 %). GPS-10 Hz demonstrated a low error for TD (1.9 %), HSR (4.7 %), Pmean (2.4 %) and HMP (4.5 %), whereas the errors for VHSR (10.5 %) and VHMP (6.2 %) were moderate. In general, GPS accuracy increased with a higher sampling rate, but decreased with increasing speed of movement. Both systems could be used for calculating TD and Pmean, but they cannot be used interchangeably. Only GPS-10 Hz demonstrated a sufficient level of accuracy for quantifying distance covered at higher speeds or time spent at very high power.

AB - We compared the accuracy of 2 GPS systems with different sampling rates for the determination of distances covered at high-speed and metabolic power derived from a combination of running speed and acceleration. 8 participants performed 56 bouts of shuttle intermittent running wearing 2 portable GPS devices (SPI-Pro, GPS-5 Hz and MinimaxX, GPS-10 Hz). The GPS systems were compared with a radar system as a criterion measure. The variables investigated were: total distance (TD), high-speed distance (HSR > 4.17 m·s-1), very high-speed distance (VHSR > 5.56 m·s-1), mean power (Pmean), high metabolic power (HMP > 20 W·kg-1) and very high metabolic power (VHMP > 25 W·kg-1). GPS-5 Hz had low error for TD (2.8 %) and Pmean (4.5 %), while the errors for the other variables ranged from moderate to high (7.5-23.2 %). GPS-10 Hz demonstrated a low error for TD (1.9 %), HSR (4.7 %), Pmean (2.4 %) and HMP (4.5 %), whereas the errors for VHSR (10.5 %) and VHMP (6.2 %) were moderate. In general, GPS accuracy increased with a higher sampling rate, but decreased with increasing speed of movement. Both systems could be used for calculating TD and Pmean, but they cannot be used interchangeably. Only GPS-10 Hz demonstrated a sufficient level of accuracy for quantifying distance covered at higher speeds or time spent at very high power.

KW - Acceleration

KW - Metabolic power

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KW - Training load monitoring

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JO - International Journal of Sports Medicine

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ER -

Accuracy of GPS devices for measuring high-intensity running in field-based team sports

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Keywords

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