Title :
3D Model Hypotheses for Player Segmentation and Rendering in Free-Viewpoint Soccer Video
Author :
Haopeng Li ; Flierl, Markus
Abstract :
This paper presents a player segmentation approach based on 3D model hypotheses for soccer games. We use a hyper plane model for player modeling and a collection of piecewise geometric models for background modeling. To determine the assignment of each pixel in the image plane, we test it with two model hypotheses. We construct a cost function that measures the fitness of model hypotheses for each pixel. To fully utilize the perspective diversity of the multiview imagery, we propose a three-step strategy to choose the best model for each pixel. The experimental results show that our segmentation approach based on 3D model hypotheses outperforms conventional temporal median and graph cut methods for both subjective and objective evaluation.
Keywords :
computational geometry; graph theory; image segmentation; rendering (computer graphics); video signal processing; 3D model hypotheses; background modeling; free-viewpoint soccer video; graph cut methods; image plane; multiview imagery; piecewise geometric models; player segmentation; rendering; soccer games; temporal median; Cameras; Computational modeling; Cost function; Heuristic algorithms; Image segmentation; Rendering (computer graphics); Solid modeling; 3D geometric model; Soccer video; segmentation;
Conference_Titel :
Multimedia (ISM), 2012 IEEE International Symposium on
Conference_Location :
Irvine, CA
Print_ISBN :
978-1-4673-4370-1
DOI :
10.1109/ISM.2012.47
