基于模型的政策外深度强化学习与模型嵌入

IF 5.3 3区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Xiaoyu Tan;Chao Qu;Junwu Xiong;James Zhang;Xihe Qiu;Yaochu Jin
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引用次数: 0

摘要

与无模型强化学习(MFRL)相比,基于模型的强化学习(MBRL)通过利用基于控制的领域知识,显示出其在样本效率方面的优势。尽管 MBRL 取得了令人印象深刻的成果,但由于缺乏与环境的无限交互,MBRL 的表现仍优于 MFRL。虽然可以通过想象未来状态的轨迹来生成假想数据,但数据生成的使用和模型偏差的影响之间的权衡问题仍有待解决。在本文中,我们提出了一种简单而优雅的基于非策略模型的深度强化学习算法,该算法的模型嵌入了概率强化学习框架,称为 MEMB。为了平衡样本效率和模型偏差,我们在训练中同时利用了实数据和虚数据。特别是,我们在策略更新中嵌入模型,并从真实数据集中学习值函数。我们还对模型和策略的 Lipschitz 连续性假设下的 MEMB 进行了理论分析,证明了短期虚数推出的可靠性。最后,我们在几个基准上对 MEMB 进行了评估,证明我们的算法可以达到最先进的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Model-Based Off-Policy Deep Reinforcement Learning With Model-Embedding
Model-based reinforcement learning (MBRL) has shown its advantages in sample efficiency over model-free reinforcement learning (MFRL) by leveraging control-based domain knowledge. Despite the impressive results it achieves, MBRL is still outperformed by MFRL due to the lack of unlimited interactions with the environment. While imaginary data can be generated by imagining the trajectories of future states, a trade-off between the usage of data generation and the influence of model bias remains to be resolved. In this paper, we propose a simple and elegant off-policy model-based deep reinforcement learning algorithm with a model embedded in the framework of probabilistic reinforcement learning, called MEMB. To balance the sample-efficiency and model bias, we exploit both real and imaginary data in training. In particular, we embed the model in the policy update and learn value functions from the real data set. We also provide a theoretical analysis of MEMB with the Lipschitz continuity assumption on the model and policy, proving the reliability of the short-term imaginary rollout. Finally, we evaluate MEMB on several benchmarks and demonstrate that our algorithm can achieve state-of-the-art performance.
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来源期刊
CiteScore
10.30
自引率
7.50%
发文量
147
期刊介绍: The IEEE Transactions on Emerging Topics in Computational Intelligence (TETCI) publishes original articles on emerging aspects of computational intelligence, including theory, applications, and surveys. TETCI is an electronics only publication. TETCI publishes six issues per year. Authors are encouraged to submit manuscripts in any emerging topic in computational intelligence, especially nature-inspired computing topics not covered by other IEEE Computational Intelligence Society journals. A few such illustrative examples are glial cell networks, computational neuroscience, Brain Computer Interface, ambient intelligence, non-fuzzy computing with words, artificial life, cultural learning, artificial endocrine networks, social reasoning, artificial hormone networks, computational intelligence for the IoT and Smart-X technologies.
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