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Concurrent Validity and Reliability of Sprinting Force–Velocity Profile Assessed With GPS Devices in Elite Athletes

Pauline Clavel, Cédric Leduc, Jean-Benoı̂t Morin, Cameron Owen, Pierre Samozino, Alexis Peeters, Martin Buchheit, Mathieu Lacome

2022International Journal of Sports Physiology and Performance63 citationsDOI

Abstract

PURPOSE: The aims of this study were to (1) assess the concurrent validity of global positioning systems (GPSs) against a radar device to measure sprinting force-velocity (F-v) profiles and (2) evaluate the interunit reliability of 10-Hz GPS devices (Vector S7, Catapult Innovations). METHODS: Sixteen male elite U18 rugby union players (178.3 [7.6] cm; 78.3 [13.2] kg) participated. Two 50-m sprints interspersed with at least 5 minutes of recovery were completed to obtain input (maximal sprint speed and acceleration time constant τ) and output (theoretical maximal horizontal force, sprinting speed, and horizontal power) F-v profile variables. Sprint running speed was concurrently measured with a radar and 2 GPS units placed on the upper back of each player. Concurrent validity and interunit reliability analyses were performed. RESULTS: Moderate to nearly perfect correlations were observed between radar and GPS-derived F-v variables, with small to large typical errors. Trivial to small coefficients of variation were found regarding the GPS interunit reliability. CONCLUSION: The GPS devices tested in this study represent a valid and reliable alternative to a radar device when assessing sprint acceleration F-v profiles in team-sport players.

Topics & Concepts

SprintGlobal Positioning SystemAccelerationReliability (semiconductor)SimulationConcurrent validityRadarTeam sportValidityAthletesMathematicsComputer scienceStatisticsPhysicsPhysical therapyMedicinePower (physics)TelecommunicationsPsychometricsClassical mechanicsInternal consistencyQuantum mechanicsSoftware engineeringSports Performance and TrainingSports injuries and preventionSports Dynamics and Biomechanics