Characterization and comparison of Japan professional football clubs based on attack patterns(Session 2a)
スポンサーリンク
概要
- 論文の詳細を見る
In recent years, studies using football data have proliferated. Most existing studies focus on the results of matches. In contrast, few studies have considered each event that is recorded successively during the matches. Therefore, in this paper, we characterize and compare football clubs by considering such information. We characterize the ball's movement among players or different field areas into important event such as shoot and track the ball's attack patterns. These important events are collectively defined as attack patterns. We analyze the attack patterns using social network analysis and build digraphs comprising players or areas in order to characterize and compare clubs.
- 2011-11-11
著者
-
Yadohisa Hiroshi
Department Of Mathematics And Computer Science Kagoshima University
-
Kitano Michiharu
Graduate School Of Culture And Information Science Doshisha University
-
Ishii Ryo
Graduate School of Culture and Information Science, Doshisha University
-
Ishii Ryo
Graduate School Of Culture And Information Science Doshisha University
-
Yadohisa Hiroshi
Department Of Culture And Information Science Doshisha University
関連論文
- DISSIMILARITY AND RELATED METHODS FOR FUNCTIONAL DATA(Functional Data Analysis)
- SPACE DISTORTION AND MONOTONE ADMISSIBILITY IN AGGLOMERATIVE CLUSTERING
- A SHRINKAGE ESTIMATOR OF THE BIVARIATE NORMAL MEAN WITH INTERVAL RESTRICTIONS
- Characterization and comparison of Japan professional football clubs based on attack patterns(Session 2a)
- Pitching Prediction By Multinomial Logit Model In Nippon Professional Baseball(Session 2a)
- Similarity measure for candlestick chart variable(Competition 2)
- Characterizing Edge and Stacking Structures of Exfoliated Graphene by Photoelectron Diffraction
- Characterizing Edge and Stacking Structures of Exfoliated Graphene by Photoelectron Diffraction (SELECTED TOPICS IN APPLIED PHYSICS : Nano Electronics and Devices : Characterization and Control of Nano Surfaces and Interfaces)