Enhancing Visual Domain Randomization with Real Images for Sim-to-Real Transfer

Pub Date : 2023-01-01 DOI:10.36244/icj.2023.1.3
András Béres, Bálint Gyires-Tóth
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Abstract

In order to train reinforcement learning algorithms, a significant amount of experience is required, so it is common practice to train them in simulation, even when they are intended to be applied in the real world. To improve robustness, camerabased agents can be trained using visual domain randomization, which involves changing the visual characteristics of the simulator between training episodes in order to improve their resilience to visual changes in their environment. In this work, we propose a method, which includes realworld images alongside visual domain randomization in the reinforcement learning training procedure to further enhance the performance after sim-to-real transfer. We train variational autoencoders using both real and simulated frames, and the representations produced by the encoders are then used to train reinforcement learning agents. The proposed method is evaluated against a variety of baselines, including direct and indirect visual domain randomization, end-to-end reinforcement learning, and supervised and unsupervised state representation learning. By controlling a differential drive vehicle using only camera images, the method is tested in the Duckietown self-driving car environment. We demonstrate through our experimental results that our method improves learnt representation effectiveness and robustness by achieving the best performance of all tested methods.
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增强真实图像的视觉域随机化,用于模拟到真实的传输
为了训练强化学习算法,需要大量的经验,因此在模拟中训练它们是常见的做法,即使它们打算在现实世界中应用。为了提高鲁棒性,基于摄像头的智能体可以使用视觉域随机化来训练,这包括在训练集之间改变模拟器的视觉特征,以提高它们对环境视觉变化的适应能力。在这项工作中,我们提出了一种方法,在强化学习训练过程中包括真实世界的图像和视觉域随机化,以进一步提高模拟到真实迁移后的性能。我们使用真实帧和模拟帧训练变分自编码器,然后使用编码器产生的表示来训练强化学习代理。该方法针对各种基线进行了评估,包括直接和间接视觉域随机化、端到端强化学习、有监督和无监督状态表示学习。通过仅使用相机图像控制差速驱动车辆,该方法在Duckietown自动驾驶汽车环境中进行了测试。我们通过实验结果证明,我们的方法通过达到所有测试方法的最佳性能,提高了学习表征的有效性和鲁棒性。
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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