New Hybrid Graph Convolution Neural Network with Applications in Game Strategy

Xu, Hanyue; Seng, Kah Phooi; Ang, Li-Minn

doi:10.3390/electronics12194020

Electronics

2023

DOI: 10.3390/electronics12194020

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New Hybrid Graph Convolution Neural Network with Applications in Game Strategy

Hanyue Xu,

Kah Phooi Seng,

Li-Minn Ang

Abstract: Deep convolutional neural networks (DCNNs) have enjoyed much success in many applications, such as computer vision, automated medical diagnosis, autonomous systems, etc. Another application of DCNNs is for game strategies, where the deep neural network architecture can be used to directly represent and learn strategies from expert players on different sides. Many game states can be expressed not only as a matrix data structure suitable for DCNN training but also as a graph data structure. Most of the available… Show more

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2024

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Streamlined Deep Learning Models for Move Prediction in Go-Game

Lin,

Huang

2024

Electronics

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Due to the complexity of search space and move evaluation, the game of Go has been a long-standing challenge for artificial intelligence (AI) to achieve a high level of proficiency. It was not until DeepMind proposed the deep neural network and tree search algorithm AlphaGo in 2014 that an efficient learning algorithm was developed, marking a significant milestone in AI technology. In light of the key technologies in AI Computer Go, this work examines move prediction across different Go rankings and sophisticatedly develops two deep learning models by combining and extending the feature extraction methods of AlphaGo. Specifically, effective modules for neural networks are proposed to guide learning through complicated Go situations based on the Inception module in GoogLeNet and the Convolutional Block Attention Module (CBAM). Subsequently, the two models are combined by ensemble learning to improve generalization, and these streamlined models significantly reduce the number of model parameters to the scale of one hundred thousand. Experimental results show that our models achieve prediction accuracies of 46.9% and 50.8% on two different Go datasets, outperforming conventional models by significant margins. This work not only advances AI development in the Go-game but also offers an innovative approach to related studies.

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Streamlined Deep Learning Models for Move Prediction in Go-Game

Lin,

Huang

2024

Electronics

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New Hybrid Graph Convolution Neural Network with Applications in Game Strategy

Cited by 1 publication

References 43 publications

Streamlined Deep Learning Models for Move Prediction in Go-Game

Streamlined Deep Learning Models for Move Prediction in Go-Game

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