Hundreds Guide Millions: Adaptive Offline Reinforcement Learning With Expert Guidance

IF 10.2 1区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Qisen Yang;Shenzhi Wang;Qihang Zhang;Gao Huang;Shiji Song
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引用次数: 0

Abstract

Offline reinforcement learning (RL) optimizes the policy on a previously collected dataset without any interactions with the environment, yet usually suffers from the distributional shift problem. To mitigate this issue, a typical solution is to impose a policy constraint on a policy improvement objective. However, existing methods generally adopt a “one-size-fits-all” practice, i.e., keeping only a single improvement-constraint balance for all the samples in a mini-batch or even the entire offline dataset. In this work, we argue that different samples should be treated with different policy constraint intensities. Based on this idea, a novel plug-in approach named guided offline RL (GORL) is proposed. GORL employs a guiding network, along with only a few expert demonstrations, to adaptively determine the relative importance of the policy improvement and policy constraint for every sample. We theoretically prove that the guidance provided by our method is rational and near-optimal. Extensive experiments on various environments suggest that GORL can be easily installed on most offline RL algorithms with statistically significant performance improvements.
数百指导数百万:专家指导下的自适应离线强化学习。
离线强化学习(RL)在以前收集的数据集上优化策略,而不与环境进行任何交互,但通常会遇到分布转移问题。为了缓解这个问题,一个典型的解决方案是对政策改进目标施加政策约束。然而,现有的方法通常采用“一刀切”的做法,即对小批量甚至整个离线数据集中的所有样本只保持单一的改进约束平衡。在这项工作中,我们认为不同的样本应该用不同的政策约束强度来处理。基于这一思想,提出了一种新的插件方法——引导离线RL(GORL)。GORL采用了一个指导网络,以及仅几个专家演示,来自适应地确定每个样本的策略改进和策略约束的相对重要性。我们从理论上证明了我们的方法所提供的指导是合理的并且接近最优的。在各种环境中进行的大量实验表明,GORL可以很容易地安装在大多数离线RL算法上,并在统计上显著提高了性能。
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来源期刊
IEEE transactions on neural networks and learning systems
IEEE transactions on neural networks and learning systems COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
CiteScore
23.80
自引率
9.60%
发文量
2102
审稿时长
3-8 weeks
期刊介绍: The focus of IEEE Transactions on Neural Networks and Learning Systems is to present scholarly articles discussing the theory, design, and applications of neural networks as well as other learning systems. The journal primarily highlights technical and scientific research in this domain.
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