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Sam Robertson
Researcher at Victoria University, Australia
Publications - 145
Citations - 2961
Sam Robertson is an academic researcher from Victoria University, Australia. The author has contributed to research in topics: Football & Medicine. The author has an hindex of 27, co-authored 131 publications receiving 2085 citations. Previous affiliations of Sam Robertson include University of Western Australia & Deakin University.
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Machine and deep learning for sport-specific movement recognition: a systematic review of model development and performance
TL;DR: The object of this study was to systematically review the literature on machine and deep learning for sport-specific movement recognition using inertial measurement unit (IMU) and, or computer vision data inputs.
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Relationships Between Internal and External Training Load in Team Sport Athletes: Evidence for an Individualised Approach.
TL;DR: This study demonstrates that machine learning approaches may outperform more traditional methodologies with respect to predicting athlete responses to TL and enables further individualization of load monitoring, leading to more accurate training prescription and evaluation.
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Effects of different protocols of high intensity interval training for VO2max improvements in adults: A meta-analysis of randomised controlled trials
TL;DR: To maximize the training effects on VO2max, long-interval (≥2min), high-volume (≤15min) and moderate to long-term (≢4-12weeks) HIIT are recommended.
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Explaining match outcome in elite Australian Rules football using team performance indicators.
TL;DR: Despite performance similarities across the two analysis approaches, the CHAID model revealed multiple winning performance indicator profiles, thereby increasing its comparative feasibility for use in the field, with the development of team-specific models recommended in future.
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Concurrent validation of an inertial measurement system to quantify kicking biomechanics in four football codes.
TL;DR: The results advocate the use of IMS to quantify biomechanics of high-velocity movements in sport-specific settings to help improve the ecological validity of biomechanical testing and the timing of feedback.