Beyond Local Views: Global State Inference with Diffusion Models for Cooperative Multi-Agent Reinforcement Learning

Zhiwei Xu, Hangyu Mao, Nianmin Zhang, Xin Xin, Pengjie Ren, Dapeng Li, Bin Zhang, Guoliang Fan, Zhumin Chen, Changwei Wang, Jiangjin Yin
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Abstract

In partially observable multi-agent systems, agents typically only have access to local observations. This severely hinders their ability to make precise decisions, particularly during decentralized execution. To alleviate this problem and inspired by image outpainting, we propose State Inference with Diffusion Models (SIDIFF), which uses diffusion models to reconstruct the original global state based solely on local observations. SIDIFF consists of a state generator and a state extractor, which allow agents to choose suitable actions by considering both the reconstructed global state and local observations. In addition, SIDIFF can be effortlessly incorporated into current multi-agent reinforcement learning algorithms to improve their performance. Finally, we evaluated SIDIFF on different experimental platforms, including Multi-Agent Battle City (MABC), a novel and flexible multi-agent reinforcement learning environment we developed. SIDIFF achieved desirable results and outperformed other popular algorithms.
超越局部观点:利用扩散模型进行全局状态推断,实现多代理合作强化学习
在部分可观测的多代理系统中,代理通常只能获得本地观测数据。这严重阻碍了它们做出精确决策的能力,尤其是在分散执行期间。为了缓解这一问题,我们受到图像外绘的启发,提出了利用扩散模型进行状态推理(SIDIFF),它利用扩散模型,仅根据局部观测结果就能重建最初的全局状态。SIDIFF 由状态生成器和状态提取器组成,它允许代理通过考虑重建的全局状态和本地观测结果来选择合适的行动。最后,我们在不同的实验平台上对 SIDIFF 进行了评估,包括我们开发的新颖灵活的多代理强化学习环境--多代理战城(MABC)。SIDIFF取得了令人满意的结果,并优于其他流行算法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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