Swimmer localization from a moving camera

(Lokalisierung des Schwimmers durch eine sich bewegende Kamera)

At the highest level of competitive sport, nearly all performances of athletes (both training and competitive) are chronicled using video. Video is then often viewed by expert coaches/analysts who then manually label important performance indicators to gauge performance. Stroke-rate and pacing are important performance measures in swimming, and these are previously digitised manually by a human. This is problematic as annotating large volumes of video can be costly, and time-consuming. Further, since it is difficult to accurately estimate the position of the swimmer at each frame, measures such as stroke rate are generally aggregated over an entire swimming lap. Vision-based techniques which can automatically, objectively and reliably track the swimmer and their location can potentially solve these issues and allow for large-scale analysis of a swimmer across many videos. However, the aquatic environment is challenging due to fluctuations in scene from splashes, reflections and because swimmers are frequently submerged at different points in a race. In this paper, we temporally segment races into distinct and sequential states, and propose a multimodal approach which employs individual detectors tuned to each race state. Our approach allows the swimmer to be located and tracked smoothly in each frame despite a diverse range of constraints. We test our approach on a video dataset compiled at the 2012 Australian Short Course Swimming Championships.
© Copyright 2013 International Conference on Digital Image Computing: Techniques and Applications (DICTA). Veröffentlicht von IEEE. Alle Rechte vorbehalten.

Schlagworte: Schwimmen Video Analyse Bewegung mathematisch-logisches Modell Software Motion Capturing
Notationen: Naturwissenschaften und Technik Ausdauersportarten
DOI: 10.1109/DICTA.2013.6691533
Veröffentlicht in: International Conference on Digital Image Computing: Techniques and Applications (DICTA)
Veröffentlicht: Hobart IEEE 2013
Seiten: 1-8
Dokumentenarten: Kongressband, Tagungsbericht
Sprache: Englisch
Level: hoch