多代理连续控制与生成流网络

Shuang Luo, Yinchuan Li, Shunyu Liu, Xu Zhang, Yunfeng Shao, Chao Wu
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引用次数: 0

摘要

生成流网络(GFlowNets)旨在从一个分布中生成多样化的轨迹,在该分布中,轨迹的最终状态与奖励成正比,是探索性控制任务中强化学习的有力替代品。然而,GFlow 网络中的个体流匹配约束限制了其在多机器人系统中的应用,尤其是连续联合控制问题。在本文中,我们提出了一种新颖的多代理连续流网络(Multi-Agent generative Continuous Flow Networks,MACFN)方法,使多个代理能够对各种连续组成对象进行合作探索。从技术上讲,MACFN 以基于全局流的集中匹配方式训练基于个体流的分散策略。在集中式训练过程中,MACFN 引入了一个连续流分解网络,以推导出每个代理在只有全局奖励的情况下的流量贡献。然后,代理可以完全根据其分配的本地流量以分散的方式采取行动,形成与奖励成比例的联合策略分配。为了保证连续流分解的表现力,我们从理论上推导出了分解网络的一致性条件。实验结果表明,所提出的方法产生的结果优于最先进的同行方法,并具有更好的探索能力。我们的代码可在https://github.com/isluoshuang/MACFN。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-Agent Continuous Control with Generative Flow Networks
Generative Flow Networks (GFlowNets) aim to generate diverse trajectories from a distribution in which the final states of the trajectories are proportional to the reward, serving as a powerful alternative to reinforcement learning for exploratory control tasks. However, the individual-flow matching constraint in GFlowNets limits their applications for multi-agent systems, especially continuous joint-control problems. In this paper, we propose a novel Multi-Agent generative Continuous Flow Networks (MACFN) method to enable multiple agents to perform cooperative exploration for various compositional continuous objects. Technically, MACFN trains decentralized individual-flow-based policies in a centralized global-flow-based matching fashion. During centralized training, MACFN introduces a continuous flow decomposition network to deduce the flow contributions of each agent in the presence of only global rewards. Then agents can deliver actions solely based on their assigned local flow in a decentralized way, forming a joint policy distribution proportional to the rewards. To guarantee the expressiveness of continuous flow decomposition, we theoretically derive a consistency condition on the decomposition network. Experimental results demonstrate that the proposed method yields results superior to the state-of-the-art counterparts and better exploration capability. Our code is available at https://github.com/isluoshuang/MACFN.
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