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Effects of Spectral Normalization in Multi-agent Reinforcement Learning

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arxiv 2212.05331 v2 pith:3NBCY6YT submitted 2022-12-10 cs.LG cs.AI

Effects of Spectral Normalization in Multi-agent Reinforcement Learning

classification cs.LG cs.AI
keywords criticlearninglearnmulti-agentrewardsparsenormalizationon-policy
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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A reliable critic is central to on-policy actor-critic learning. But it becomes challenging to learn a reliable critic in a multi-agent sparse reward scenario due to two factors: 1) The joint action space grows exponentially with the number of agents 2) This, combined with the reward sparseness and environment noise, leads to large sample requirements for accurate learning. We show that regularising the critic with spectral normalization (SN) enables it to learn more robustly, even in multi-agent on-policy sparse reward scenarios. Our experiments show that the regularised critic is quickly able to learn from the sparse rewarding experience in the complex SMAC and RWARE domains. These findings highlight the importance of regularisation in the critic for stable learning.

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