使用强化学习和生成模型的深度策略训练和评估

Ali Ghadirzadeh, Petra Poklukar, Karol Arndt, Chelsea Finn, V. Kyrki, D. Kragic, Marten Bjorkman
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引用次数: 0

摘要

我们提出了一个数据高效的框架来解决序列决策问题,该框架利用强化学习(RL)和潜在变量生成模型的结合。该框架称为GenRL,通过引入一个动作潜在变量来训练深度策略,这样前馈策略搜索可以分为两个部分:(i)训练一个子策略,该子策略在给定系统状态的情况下输出动作潜在变量的分布,以及(ii)生成模型的无监督训练,该模型输出一系列以潜在动作变量为条件的运动动作。GenRL能够安全探索并缓解数据效率低下的问题,因为它利用了关于有效运动动作序列的先验知识。此外,我们提供了一组用于评估生成模型的措施,这样我们就能够在物理机器人的实际训练之前预测RL策略训练的性能。我们通过实验确定了生成模型的特征,这些特征对两个机器人任务:冰球射击和篮球投掷的最终策略训练性能影响最大。此外,我们通过经验证明,与两种最先进的强化学习方法相比,GenRL是唯一能够安全有效地解决机器人任务的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Training and Evaluation of Deep Policies using Reinforcement Learning and Generative Models
We present a data-efficient framework for solving sequential decision-making problems which exploits the combination of reinforcement learning (RL) and latent variable generative models. The framework, called GenRL, trains deep policies by introducing an action latent variable such that the feed-forward policy search can be divided into two parts: (i) training a sub-policy that outputs a distribution over the action latent variable given a state of the system, and (ii) unsupervised training of a generative model that outputs a sequence of motor actions conditioned on the latent action variable. GenRL enables safe exploration and alleviates the data-inefficiency problem as it exploits prior knowledge about valid sequences of motor actions. Moreover, we provide a set of measures for evaluation of generative models such that we are able to predict the performance of the RL policy training prior to the actual training on a physical robot. We experimentally determine the characteristics of generative models that have most influence on the performance of the final policy training on two robotics tasks: shooting a hockey puck and throwing a basketball. Furthermore, we empirically demonstrate that GenRL is the only method which can safely and efficiently solve the robotics tasks compared to two state-of-the-art RL methods.
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