摩尔基于模型的离线政策优化与风险动态模型

IF 5 2区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Complex & Intelligent Systems Pub Date : 2024-11-11 DOI:10.1007/s40747-024-01621-x
Xiaolong Su, Peng Li, Shaofei Chen
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引用次数: 0

摘要

离线强化学习(RL)通过避免危险和昂贵的在线交互,已广泛应用于安全关键领域。解决离线数据之外的不确定性和风险是一项重大挑战。对风险敏感的离线强化学习试图通过风险规避来解决这一问题。然而,目前基于模型的方法只能利用动力学模型提取状态转换信息和奖励信息,无法捕捉离线数据中隐含的风险信息,可能会导致高风险数据的误用。在这项工作中,我们提出了一种基于模型的离线策略优化方法,其中包含风险动态模型(MOOR)。具体来说,我们利用一个能学习数据风险信息的量化网络构建了一个风险动态模型,然后根据风险动态模型和数据风险信息的误差重塑模型生成的数据。最后,我们在离线数据和生成数据的组合数据集上使用风险规避算法来学习政策。我们从理论上证明了 MOOR 可以识别数据的风险信息并避免使用高风险数据,我们的实验表明 MOOR 优于现有方法,并在风险敏感的 D4RL 和风险导航任务中取得了最先进的结果。
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Moor: Model-based offline policy optimization with a risk dynamics model

Offline reinforcement learning (RL) has been widely used in safety-critical domains by avoiding dangerous and costly online interaction. A significant challenge is addressing uncertainties and risks outside of offline data. Risk-sensitive offline RL attempts to solve this issue by risk aversion. However, current model-based approaches only extract state transition information and reward information using dynamics models, which cannot capture risk information implicit in offline data and may result in the misuse of high-risk data. In this work, we propose a model-based offline policy optimization approach with a risk dynamics model (MOOR). Specifically, we construct a risk dynamics model using a quantile network that can learn the risk information of data, then we reshape model-generated data based on errors of the risk dynamics model and the risk information of data. Finally, we use a risk-averse algorithm to learn the policy on the combined dataset of offline and generated data. We theoretically prove that MOOR can identify risk information of data and avoid utilizing high-risk data, our experiments show that MOOR outperforms existing approaches and achieves state-of-the-art results in risk-sensitive D4RL and risky navigation tasks.

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来源期刊
Complex & Intelligent Systems
Complex & Intelligent Systems COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-
CiteScore
9.60
自引率
10.30%
发文量
297
期刊介绍: Complex & Intelligent Systems aims to provide a forum for presenting and discussing novel approaches, tools and techniques meant for attaining a cross-fertilization between the broad fields of complex systems, computational simulation, and intelligent analytics and visualization. The transdisciplinary research that the journal focuses on will expand the boundaries of our understanding by investigating the principles and processes that underlie many of the most profound problems facing society today.
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