On the Convergence of Fictitious Play: A Decomposition Approach
Abstract
Fictitious play (FP) is one of the most fundamental game-theoretical learning frameworks for computing Nash equilibrium in n-player games, which builds the foundation for modern multi-agent learning algorithms. Although FP has provable convergence guarantees on zero-sum games and potential games, many real-world problems are often a mixture of both and the convergence property of FP has not been fully studied yet. In this paper, we extend the convergence results of FP to the combinations of such games and beyond. Specifically, we derive new conditions for FP to converge by leveraging game decomposition techniques. We further develop a linear relationship unifying cooperation and competition in the sense that these two classes of games are mutually transferable. Finally, we analyse a non-convergent example of FP, the Shapley game, and develop sufficient conditions for FP to converge.
Cite
Text
Chen et al. "On the Convergence of Fictitious Play: A Decomposition Approach." International Joint Conference on Artificial Intelligence, 2022. doi:10.24963/IJCAI.2022/26Markdown
[Chen et al. "On the Convergence of Fictitious Play: A Decomposition Approach." International Joint Conference on Artificial Intelligence, 2022.](https://mlanthology.org/ijcai/2022/chen2022ijcai-convergence/) doi:10.24963/IJCAI.2022/26BibTeX
@inproceedings{chen2022ijcai-convergence,
title = {{On the Convergence of Fictitious Play: A Decomposition Approach}},
author = {Chen, Yurong and Deng, Xiaotie and Li, Chenchen and Mguni, David and Wang, Jun and Yan, Xiang and Yang, Yaodong},
booktitle = {International Joint Conference on Artificial Intelligence},
year = {2022},
pages = {179-185},
doi = {10.24963/IJCAI.2022/26},
url = {https://mlanthology.org/ijcai/2022/chen2022ijcai-convergence/}
}