Authors: Mourad Moussa, Ali Douik, Hassani Messaoud

Abstract:

Events discrimination and decision maker in sport field are the subject of many interesting studies in computer vision and artificial intelligence. A large volume of research has been conducted for automatic semantic event detection and summarization of sports videos. Indeed the results of these researches have a very significant contribution, as well to television broadcasts as to the football teams, since the result of sporting event can be reflected on the economic field. In this paper, we propose a novel fuzzy sequential technique which lead to discriminate events and specify the technico-tactics on going the game, nor the fuzzy system or the sequential one, may be able to respond to the asked question, in fact fuzzy process is not sufficient, it does not respect the chronological order according the time of various events, similarly the sequential process needs flexibility about the parameters used in this study, it may affect a membership degree of each parameter on the one hand and respect the sequencing of events for each frame on the other hand. Indeed this technique describes special events such as dribbling, headings, short sprints, rapid acceleration or deceleration, turning, jumping, kicking, ball occupation, and tackling according velocity vectors of the two players and the ball direction.

Keywords: Sequential process, Event detection, Soccer videos analysis, Fuzzy process, Spatio-temporal parameters.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1091056

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References:

[1] Y. Gong, T. Lim and H. Chua, "Automatic Parsing of TV Soccer Programs,” in IEEE International Conference on Multimedia Computing and Systems, May 1995, pp. 167-174.
[2] D. Yow, B.-L. Yeo, M. Yeung and B. Liu, "Analysis and Presentation of Soccer Highlights from Digital Video,” in Asian Conference on Computer Vision, 1995.
[3] V. Tovinkere and R.-J. Qian, "Detecting Semantic Events in Soccer Games: Towards a Complete Solution,” in IEEE Proceedings of ICME'01, 2001, pp. 1040-1043.
[4] D. Zhong and S.-F. Chang, "Structure Analysis of Sports Video Using Domain Models,” in IEEE International Conference on Multimedia and Expo, August 2001.
[5] Y. Wang, Z. Liu and J. Huang, "Multimedia Content Analysis Using Both Audio and Visual Clues,” IEEE Signal Processing Magazine 17(6), pp. 12-36, 2000.
[6] M. Han, W. Hua, W. Xu, and Y.-H. Gong, "An Integrated Baseball Digest System Using Maximum Entropy Method,” Proc. of ACMMM'02, pp.347-350, (2002).
[7] J. Assfalg, M. Bertini, C. Colombo and D. Bimbo, "A Semantic Annotation of Sports Videos,” IEEE Multi-Media, vol.9, no.2, pp. 52-60, (2002).
[8] N. Babaguchi, Y. Kawai, and T. Kitahashi, "Event Based Video Indexing by Intermodal Collaboration," IEEE Transactions on Multimedia, vol.4, no.1, pp. 68-75, (2002).
[9] J.-R. Wang, and N. Paramesh, "A Scheme for Archiving and Browsing Tennis Video Clips,” Proc. Of IEEE Pacific-Rim Conf. on Multimedia (PCM'03), Singapore, (2003).
[10] Y. Rui, A. Gupta and A. Acero, "Automatically Extracting Highlights for TV Baseball Programs,” in Proceedings of the ACM Multimedia Los Angeles, CA. 2000.
[11] Y. Gong, L.-T. Sin, C.-H. Chuan, H.-J. Zhang and M. Sakauchi, "Automatic Parsing of TV Soccer Programs,” IEEE Conf. Multimedia Systems Comput., 1995, pp. 167-174.
[12] N. Babaguchi, Y. Kawai, and T. Kitahashi, "Event Based Indexing of Broadcast Sports Video by Intermodal Collaboration,” IEEE Trans. Multimedia, 4(1), 2002.
[13] S. Brakatsoulas, D. Pfoser and N. Tryfona, "Modeling, Storing and Mining Moving Object Databases,” Proceedings of the International Database Engineering and Application Symposium (IDEAS'04), 2004.
[14] C.-H. Kang, J.-R. Hwang, and K.-J. Li, "Trajectory Analysis for Soccer Players,” Proc. Int. Conf. Data Mining Workshops, 2006, pp. 377-381.
[15] X. Yu, Ch. Xu, H.-W. Leong, Q. Tian, Q. Tang, and K.-W. Wan, "Trajectory-Based Ball Detection and Tracking with Applications to Semantic Analysis of Broadcast Soccer Video,” in Proceedings of the 11th ACM International Conference on Multimedia, 2003, pp. 11-20.
[16] P. Figueroa, N. Leite, and R. Barros, "Tracking Soccer Players Using the Graph Representation,” in Proceedings of the 17th International Conference on Pattern Recognition, 2004, pp. 787-790.
[17] L. Barcelacuteo, X. Binefa, and J.-R. Kenfer, "Robust Methods and Representations for Soccer Player Tracking and Collision Resolution,” in Proceedings of the 4th International Conference on Image and Video Retrieval, 2005, pp. 237-246.
[18] W.-T. Chu and W.-H. Tsai, "Modeling Spatiotemporal Relationships between Moving Objects for Event Tactics Analysis in Tennis Videos,” Multimedia Tools and Applications, 50(1), pp. 149-171, 2010.
[19] A. Ekin, A. Murat Tekalp, and R. Mehrotra, "Automatic Soccer Video Analysis and Summarization,” IEEE Transactions on Image Processing, 12(7), pp. 796-807, 2003.
[20] J.-R. Wang and N. Parameswaran, "Survey of Sports Video Analysis: Research Issues and Applications,” in VIP '05: Proceedings of the Pan-Sydney Area Workshop on Visual Information Processing, Darlinghurst Australian Computer Society, Inc., 2004, pp. 87-90.
[21] T. Taki, J. Hasegawa, and T. Fukumura, "Development of Motion Analysis System for Quantitative Evaluation of Teamwork in soccer game,” in IEEE International Conference on Image Processing, 1996, pp. 815-818.
[22] A. Fujimura and K. Sugihara, "Geometric Analysis and Quantitative Evaluation of Sport Teamwork,” Systems and Computers in Japan, 36(6), pp. 49-58, 2005.
[23] S.-L. Chin, Ch.-H. Huang, Ch.-T. Tang, and J.-C. Hung, "An Application Based On Spatial Relationship to Basketball Defensive Strategies,” in Proceedings of Embedded and Ubiquitous Computing Workshops, Berlin/Heidelberg, Germany, Springer-Verlag 2005, pp. 180-188.
[24] B. Krausz and R. Herpers, "Detecting Events in Subway Stations, Multimedia Tools and Applications, 50(1), pp. 123-147, 2010.
[25] J.-L. Shih, Y.-N. Chen, K.-C. Yan and C.-C. Han, "Illegal Entrant Detection at a Restricted Area in Open Spaces Using Color Features,” Journal of Information Science and Engineering 25, pp. 1575-1592, 2009.
[26] K.-Ch. Vilas, M.-D. Darren, E.-D. Warren and J. Chen, "Identification of a Moving Object's Velocity with a Fixed Camera,” Automatica, Elsevier, 41(2005), pp. 553-562, 2005.
[27] D. Roth, E.-K. Meier and L.-V. Gool, "A New Spatio-Temporal Method for Event Detection and Personalized Retrieval of Sports Video,” Multimedia Tools and Applications, 50(1), pp. 29-47, 2010.