Hybrid Training for Enhanced Multi-task Generalization in Multi-agent Reinforcement Learning

Mingliang Zhang, Sichang Su, Chengyang He, Guillaume Sartoretti
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Abstract

In multi-agent reinforcement learning (MARL), achieving multi-task generalization to diverse agents and objectives presents significant challenges. Existing online MARL algorithms primarily focus on single-task performance, but their lack of multi-task generalization capabilities typically results in substantial computational waste and limited real-life applicability. Meanwhile, existing offline multi-task MARL approaches are heavily dependent on data quality, often resulting in poor performance on unseen tasks. In this paper, we introduce HyGen, a novel hybrid MARL framework, Hybrid Training for Enhanced Multi-Task Generalization, which integrates online and offline learning to ensure both multi-task generalization and training efficiency. Specifically, our framework extracts potential general skills from offline multi-task datasets. We then train policies to select the optimal skills under the centralized training and decentralized execution paradigm (CTDE). During this stage, we utilize a replay buffer that integrates both offline data and online interactions. We empirically demonstrate that our framework effectively extracts and refines general skills, yielding impressive generalization to unseen tasks. Comparative analyses on the StarCraft multi-agent challenge show that HyGen outperforms a wide range of existing solely online and offline methods.
多代理强化学习中增强多任务泛化的混合训练
在多代理强化学习(MARL)中,实现对不同代理和目标的多任务泛化是一项重大挑战。现有的在线 MARL 算法主要集中在单任务性能上,但它们缺乏多任务泛化能力,通常会造成大量的计算浪费,而且在现实生活中的适用性有限。在本文中,我们介绍了一种新颖的混合 MARL 框架 HyGen,即 "增强多任务泛化的混合训练"(Hybrid Training forEnhanced Multi-Task Generalization),它整合了在线和离线学习,以确保多任务泛化和训练效率。然后,我们在集中训练和分散执行范式(CTDE)下训练策略,以选择最佳技能。在这一阶段,我们利用重放缓冲器整合离线数据和在线交互。我们通过经验证明,我们的框架能够有效地提取和完善通用技能,并在所见任务中产生令人印象深刻的泛化效果。对《星际争霸》(StarCraft)多机器人挑战赛的比较分析表明,HyGen 的表现优于现有的各种纯线上和离线方法。
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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