Validation of Player and Ball Tracking with a Local Positioning System

Blauberger, Patrick; Marzilger, Robert; Lames, Martin

doi:10.3390/s21041465

Cited by 29 publications

(17 citation statements)

References 29 publications

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“…Based on positional information in indoor sports (similar to outdoor GPS position-tracking), distance travelled, speed, acceleration, and deceleration can all be determined. Furthermore, GPS, video x and y coordinate position, and an infrared camera system have been used to validate LPS in several instances (Bastida Castillo et al, 2018Hoppe et al, 2018;Luteberget et al, 2018;Blauberger et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Local Positioning System-Derived External Load of Female and Male Varsity Ice Hockey Players During Regular Season Games

et al. 2022

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PurposeThe purposes of this study were to quantify the external load for female and male varsity ice hockey players during regular season games using a local positioning system (LPS), compare LPS-derived external load between sexes and positions, and compare skating distances in absolute and relative speed zones.MethodsData were collected for 21 female (7 defense, 14 forwards; 20.0 ± 1.4 yrs., 69.1 ± 6.7 kg, 167.1 ± 5.4 cm) and 25 male (8 defense, 17 forwards; 21.9 ± 1.1 yrs., 85.9 ± 5.4 kg, 181.1 ± 5.2 cm) varsity ice hockey players. Measures included skating distance (total, and in absolute and relative speed zones), peak skating speed, peak acceleration and deceleration, accumulative acceleration load, and number of accelerations, decelerations, turns, skating transitions, direction changes, and impacts.ResultsFemale and male players had a high external load during games, with average peak skating speeds >28 km/h and average skating distances >4.4 km. Most LPS-derived measures showed greater external load in males than females (p < 0.05). Forwards skated further at higher speeds compared to defense in both sexes (p < 0.001). Skating distances were significantly different when comparing absolute and relative speed zones (p < 0.001), with absolute speed zones potentially overestimating skating at very slow, very fast, and sprint speeds and underestimating skating at slow and moderate speeds.ConclusionThis was the first study to measure external load in female ice hockey players with a LPS. Both female and male varsity players had high external loads during games, with forwards having greater external load at higher intensities and defense having greater external load at lower intensities. Sex and positional differences outline the importance of individualized athlete monitoring.

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Section: Introductionmentioning

confidence: 99%

Local Positioning System-Derived External Load of Female and Male Varsity Ice Hockey Players During Regular Season Games

et al. 2022

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“…Noteworthy, the sport-specific context turned out to be a challenge for different tracking methods (Hoppe et al, 2018;Linke et al, 2018). Although systems with comparable technology showed promising results in recent validation studies (Blauberger et al, 2021), future research needs to be conducted in the validation of the NFL tracking system.…”

Section: Discussionmentioning

confidence: 99%

Simulating Defensive Trajectories in American Football for Predicting League Average Defensive Movements

Schmid

Blauberger

Lames

2021

Front. Sports Act. Living

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American football is an appealing field of research for the use of information technology. While much effort is made to analyze the offensive team in recent years, reasoning about defensive behavior is an emergent topic. As defensive performance and positioning largely contribute to the overall success of the whole team, this study introduces a method to simulate defensive trajectories. The simulation is evaluated by comparing the movements in individual plays to a simulated league average behavior. A data-driven ghosting approach is proposed. Deep neural networks are trained with a multi-agent imitation learning approach, using the tracking data of players of a whole National Football League (NFL) regular season. To evaluate the quality of the predicted movements, a formation-based pass completion probability model is introduced. With the implementation of a learnable order invariant model, based on insights of molecular dynamical machine learning, the accuracy of the model is increased to 81%. The trained pass completion probability model is used to evaluate the ghosted trajectories and serves as a metric to compare the true trajectory to the ghosted ones. Additionally, the study evaluates the ghosting approach with respect to different optimization methods and dataset augmentation. It is shown that a multi-agent imitation learning approach trained with a dataset aggregation method outperforms baseline approaches on the dataset. This network and evaluation scheme presents a new method for teams, sports analysts, and sports scientists to evaluate defensive plays in American football and lays the foundation for more sophisticated data-driven simulation methods.

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“…The signals were transmitted to the antennas using the UWB technology at a frequency range of 4.25-7.25 GHz. The field position of the tag is calculated by a proprietary algorithm based on a combination of different methods, such as Time Difference of Arrival, Two-Way Ranging, and Angle of Arrival (Blauberger et al, 2021). A 12-camera Vicon motion analysis system (Vicon Nexus T40, Vicon Motion Systems, Oxford Metrics, UK) is implemented in the two configurations.…”

Section: Methodsmentioning

confidence: 99%

Differences in situational power performance between playing positions in top level handball

Foretić

Veršić

Uljević

et al. 2021

Rev. Bras. Ciênc. Esporte

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This study aimed to determine the differences in situational power performance between playing positions in handball. The following variables were analyzed: body height and weight, fastest shot, fastest sprint, highest jump, and average game time. The study sample comprised 412 handball players who participated at European championships. Backcourt players had the fastest shots and wing players presented the slowest shots among all playing positions. Wing players presented the fastest sprinting (29.09 km/h). Jumping performance showed the most diversity between the playing positions, and backcourt players jumped significantly higher than other players (16.76 cm).

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Validation of Player and Ball Tracking with a Local Positioning System

Cited by 29 publications

References 29 publications

Local Positioning System-Derived External Load of Female and Male Varsity Ice Hockey Players During Regular Season Games

Local Positioning System-Derived External Load of Female and Male Varsity Ice Hockey Players During Regular Season Games

Simulating Defensive Trajectories in American Football for Predicting League Average Defensive Movements

Differences in situational power performance between playing positions in top level handball

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