论文信息 - Deep Learning from Spatial Relations for Soccer Pass Prediction

Deep Learning from Spatial Relations for Soccer Pass Prediction

We propose a convolutional architecture for learning representations over spatial relations in the game of soccer, with the goal to predict individual passes between players, as a submission to the prediction challenge organized for the 5th Workshop on Machine Learning and Data Mining for Sports Analytics. The goal of the challenge was to predict the receiver of a pass given location of the sender and all other players. From each soccer situation, we extract spatial relations between the players and a few key locations on the field, which are then hierarchically aggregated within the neural architecture designed to extract possibly complex gameplay patterns stemming from these simple relations. The use of convolutions then allows to efficiently capture the various regularities that are inherent to the game. In the experiments, we show very promising performance of the method.

[1] Jesse Davis,et al. Automatically Discovering Offensive Patterns in Soccer Match Data , 2015, IDA.

[2] Austin Basye,et al. Physics-Based Modeling of Pass Probabilities in Soccer , 2017 .

[3] Luc De Raedt,et al. Qualitative Spatial Reasoning for Soccer Pass Prediction , 2016, MLSA@PKDD/ECML.

[4] Iain Matthews,et al. "Quality vs Quantity": Improved Shot Prediction in Soccer using Strategic Features from Spatiotemporal Data , 2015 .

[5] Peter Carr,et al. Assessing team strategy using spatiotemporal data , 2013, KDD.

[6] John V. Guttag,et al. Using machine learning to draw inferences from pass location data in soccer , 2016, Stat. Anal. Data Min..

[7] Juan Chen,et al. A survey of qualitative spatial representations , 2013, Knowledge engineering review (Print).