从随机模拟中学习的机器人：综述

Robot Learning From Randomized Simulations: A Review.

作者信息

Muratore Fabio, Ramos Fabio, Turk Greg, Yu Wenhao, Gienger Michael, Peters Jan

机构信息

Intelligent Autonomous Systems Group, Technical University of Darmstadt, Darmstadt, Germany.

Honda Research Institute Europe, Offenbach am Main, Germany.

出版信息

Front Robot AI. 2022 Apr 11;9:799893. doi: 10.3389/frobt.2022.799893. eCollection 2022.

DOI:10.3389/frobt.2022.799893

PMID:35494543

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9038844/

Abstract

The rise of deep learning has caused a paradigm shift in robotics research, favoring methods that require large amounts of data. Unfortunately, it is prohibitively expensive to generate such data sets on a physical platform. Therefore, state-of-the-art approaches learn in simulation where data generation is fast as well as inexpensive and subsequently transfer the knowledge to the real robot (sim-to-real). Despite becoming increasingly realistic, all simulators are by construction based on models, hence inevitably imperfect. This raises the question of how simulators can be modified to facilitate learning robot control policies and overcome the mismatch between simulation and reality, often called the "reality gap." We provide a comprehensive review of sim-to-real research for robotics, focusing on a technique named "domain randomization" which is a method for learning from randomized simulations.

摘要

深度学习的兴起在机器人研究领域引发了范式转变，更倾向于需要大量数据的方法。不幸的是，在物理平台上生成此类数据集成本过高。因此，当前的先进方法是在模拟环境中进行学习，在那里数据生成速度快且成本低，随后将知识转移到真实机器人上（从模拟到真实）。尽管模拟器越来越逼真，但所有模拟器本质上都是基于模型构建的，因此不可避免地存在缺陷。这就引出了一个问题，即如何修改模拟器以促进学习机器人控制策略，并克服模拟与现实之间的不匹配，这种不匹配通常被称为“现实差距”。我们对机器人领域从模拟到真实的研究进行了全面综述，重点关注一种名为“领域随机化”的技术，它是一种从随机模拟中学习的方法。

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从随机模拟中学习的机器人：综述

Robot Learning From Randomized Simulations: A Review.

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