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Factorized Q-Learning for Large-Scale Multi-Agent Systems
Deep Q-learning has achieved significant success in single-agent decision
making tasks. However, it is challenging to extend Q-learning to large-scale
multi-agent scenarios, due to the explosion of action space resulting from the
complex dynamics between the environment and the agents. In this paper, we
propose to make the computation of multi-agent Q-learning tractable by treating
the Q-function (w.r.t. state and joint-action) as a high-order high-dimensional
tensor and then approximate it with factorized pairwise interactions.
Furthermore, we utilize a composite deep neural network architecture for
computing the factorized Q-function, share the model parameters among all the
agents within the same group, and estimate the agents' optimal joint actions
through a coordinate descent type algorithm. All these simplifications greatly
reduce the model complexity and accelerate the learning process. Extensive
experiments on two different multi-agent problems demonstrate the performance
gain of our proposed approach in comparison with strong baselines, particularly
when there are a large number of agents.Comment: 7 pages, 5 figures, DAI 201
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