%0 Journal Article %T Clustering of basketball players using self-organizing map neural networks %J Journal of Applied Research on Industrial Engineering %I Research Expansion Alliance (REA) on behalf of Ayandegan Institute of Higher Education %Z 2538-5100 %A Babaee Khobdeh, Soroush %A Yamaghani, Mohammad Reza %A Khodaparast Sareshkeh, Siavash %D 2021 %\ 12/01/2021 %V 8 %N 4 %P 412-428 %! Clustering of basketball players using self-organizing map neural networks %K Basketball %K Clustering %K k-means %K Self-Organizing Map (SOM), Neural Networks (NNs) %K discriminant Analysis %K PCA %R 10.22105/jarie.2021.276107.1270 %X Clustering players based on their abilities, a new perspective and an important opportunity to meet needs that in the light of traditional talent identification and player science, which is held periodically and there is not enough time for them to appear. Early recognition of these abilities is a factor influencing the success of sports teams. Artificial Neural Network (ANN) is a new method of modelling and prediction. The aim of this study was to cluster basketball players based on their individual abilities. For this purpose, Self-Organizing Map (SOM) Neural Networks (NNs) were used. The data set used by 3000 NBA players for 2011 until 2018 is from the Basketball-Reference[1] site. Each player is assigned 30 attributes to reduce them using the Principal Component Analysis (PCA) method and the features for each player were reduced to 12 samples. In order to implement a SOM of features and functions in MATLAB software 65% of the data were used as the network training phase and the remaining 35% were used to the test phase. 12 players’ features as network input and output 9 clusters resulting from the combination of features. After simulation using SOM, accuracy parameter with the help of this system were obtained above 95%. The result of the study showed that the performance of the SOM in clustering basketball players was higher than the K-Means algorithm. The network implemented in this article has a faster speed in the training process and generalizability than similar cases. %U https://www.journal-aprie.com/article_134523_0b130d722e952d6a0cf390846a1a63bb.pdf