Learning Fair Policies in Decentralized Cooperative Multi-Agent Reinforcement Learning

Claire Glanois, Matthieu Zimmer, Umer Siddique, Paul Weng

    Research output: Journal Article or Conference Article in JournalJournal articleResearchpeer-review

    Abstract

    We consider the problem of learning fair policies in (deep) cooperative multi-agent reinforcement learning (MARL). We formalize it in a principled way as the problem of optimizing a welfare function that explicitly encodes two important aspects of fairness: efficiency and equity. We provide a theoretical analysis of the convergence of policy gradient for this problem. As a solution method, we propose a novel neural network architecture, which is composed of two sub-networks specifically designed for taking into account these two aspects of fairness. In experiments, we demonstrate the importance of the two sub-networks for fair optimization. Our overall approach is general as it can accommodate any (sub)differentiable welfare function. Therefore, it is compatible with various notions of fairness that have been proposed in the literature (e.g., lexicographic maximin, generalized Gini social welfare function, proportional fairness). Our method is generic and can be implemented in various MARL settings: centralized training and decentralized execution, or fully decentralized. Finally, we experimentally validate our approach in various domains and show that it can perform much better than previous methods, both in terms of efficiency and equity.
    Original languageEnglish
    JournalProceedings of Machine Learning Research
    Volume139
    ISSN2640-3498
    DOIs
    Publication statusPublished - 1 Jul 2021

    Keywords

    • Artificial intelligence
    • Fairness
    • Reinforcement learning
    • Multi Agents Systems
    • Decentralized Algorithm

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