Watch and Match: Supercharging Imitation with Regularized Optimal Transport

Conference on Robot Learning Pub Date : 2022-06-30 DOI:10.48550/arXiv.2206.15469

Siddhant Haldar, Vaibhav Mathur, Denis Yarats, Lerrel Pinto

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引用次数: 28

Abstract

Imitation learning holds tremendous promise in learning policies efficiently for complex decision making problems. Current state-of-the-art algorithms often use inverse reinforcement learning (IRL), where given a set of expert demonstrations, an agent alternatively infers a reward function and the associated optimal policy. However, such IRL approaches often require substantial online interactions for complex control problems. In this work, we present Regularized Optimal Transport (ROT), a new imitation learning algorithm that builds on recent advances in optimal transport based trajectory-matching. Our key technical insight is that adaptively combining trajectory-matching rewards with behavior cloning can significantly accelerate imitation even with only a few demonstrations. Our experiments on 20 visual control tasks across the DeepMind Control Suite, the OpenAI Robotics Suite, and the Meta-World Benchmark demonstrate an average of 7.8X faster imitation to reach 90% of expert performance compared to prior state-of-the-art methods. On real-world robotic manipulation, with just one demonstration and an hour of online training, ROT achieves an average success rate of 90.1% across 14 tasks.

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观察与匹配:正则化最优运输的增压模仿

模仿学习在有效地学习复杂决策问题的策略方面具有巨大的前景。当前最先进的算法通常使用逆强化学习(IRL)，其中给定一组专家演示，代理可以选择推断奖励函数和相关的最优策略。然而，这种IRL方法通常需要大量的在线交互来解决复杂的控制问题。在这项工作中，我们提出了正则化最优传输(ROT)，这是一种新的模仿学习算法，它建立在基于轨迹匹配的最优传输的最新进展之上。我们的关键技术见解是，自适应地将轨迹匹配奖励与行为克隆相结合，即使只有少量示范，也能显著加速模仿。我们在DeepMind控制套件、OpenAI机器人套件和Meta-World基准测试中对20个视觉控制任务进行的实验表明，与之前最先进的方法相比，模仿速度平均快7.8倍，达到专家性能的90%。在现实世界的机器人操作中，只需一个演示和一个小时的在线培训，ROT在14个任务中实现了90.1%的平均成功率。

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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Conference on Robot Learning

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