Scalable Reinforcement Learning Policies for Multi-Agent Control
This addresses the challenge of scaling reinforcement learning to large numbers of agents in domains like robotics or surveillance, though it is incremental with novel heuristics for scalability.
The paper tackles the problem of scalable multi-agent control for target tracking by developing a MARL method that handles up to 1000 pursuers and targets, using attention mechanisms and entropy-regularized training to achieve decentralized cooperation.
We develop a Multi-Agent Reinforcement Learning (MARL) method to learn scalable control policies for target tracking. Our method can handle an arbitrary number of pursuers and targets; we show results for tasks consisting up to 1000 pursuers tracking 1000 targets. We use a decentralized, partially-observable Markov Decision Process framework to model pursuers as agents receiving partial observations (range and bearing) about targets which move using fixed, unknown policies. An attention mechanism is used to parameterize the value function of the agents; this mechanism allows us to handle an arbitrary number of targets. Entropy-regularized off-policy RL methods are used to train a stochastic policy, and we discuss how it enables a hedging behavior between pursuers that leads to a weak form of cooperation in spite of completely decentralized control execution. We further develop a masking heuristic that allows training on smaller problems with few pursuers-targets and execution on much larger problems. Thorough simulation experiments, ablation studies, and comparisons to state of the art algorithms are performed to study the scalability of the approach and robustness of performance to varying numbers of agents and targets.