Related papers: Point Cloud Based Reinforcement Learning for Sim-to-Real and Partial Observability in Visual Navigation

Point Cloud Based Reinforcement Learning for Sim-to-Real and Partial Observability in Visual Navigation

URL: http://arxiv.org/abs/2007.13715v1
Date: Mon, 27 Jul 2020 17:46:59 GMT
Title: Point Cloud Based Reinforcement Learning for Sim-to-Real and Partial Observability in Visual Navigation
Authors: Kenzo Lobos-Tsunekawa, Tatsuya Harada
Abstract summary: Reinforcement Learning (RL) represents powerful tools to solve complex robotic tasks. RL does not work directly in the real-world, which is known as the sim-to-real transfer problem. We propose a method that learns on an observation space constructed by point clouds and environment randomization.
Score: 62.22058066456076
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Reinforcement Learning (RL), among other learning-based methods, represents powerful tools to solve complex robotic tasks (e.g., actuation, manipulation, navigation, etc.), with the need for real-world data to train these systems as one of its most important limitations. The use of simulators is one way to address this issue, yet knowledge acquired in simulations does not work directly in the real-world, which is known as the sim-to-real transfer problem. While previous works focus on the nature of the images used as observations (e.g., textures and lighting), which has proven useful for a sim-to-sim transfer, they neglect other concerns regarding said observations, such as precise geometrical meanings, failing at robot-to-robot, and thus in sim-to-real transfers. We propose a method that learns on an observation space constructed by point clouds and environment randomization, generalizing among robots and simulators to achieve sim-to-real, while also addressing partial observability. We demonstrate the benefits of our methodology on the point goal navigation task, in which our method proves to be highly unaffected to unseen scenarios produced by robot-to-robot transfer, outperforms image-based baselines in robot-randomized experiments, and presents high performances in sim-to-sim conditions. Finally, we perform several experiments to validate the sim-to-real transfer to a physical domestic robot platform, confirming the out-of-the-box performance of our system.

Related papers

DrEureka: Language Model Guided Sim-To-Real Transfer [64.14314476811806]
Transferring policies learned in simulation to the real world is a promising strategy for acquiring robot skills at scale. In this paper, we investigate using Large Language Models (LLMs) to automate and accelerate sim-to-real design. Our approach is capable of solving novel robot tasks, such as quadruped balancing and walking atop a yoga ball.
arXiv Detail & Related papers (2024-06-04T04:53:05Z)
Learning to navigate efficiently and precisely in real environments [14.52507964172957]
Embodied AI literature focuses on end-to-end agents trained in simulators like Habitat or AI-Thor. In this work we explore end-to-end training of agents in simulation in settings which minimize the sim2real gap.
arXiv Detail & Related papers (2024-01-25T17:50:05Z)
Learning Sim-to-Real Dense Object Descriptors for Robotic Manipulation [4.7246285569677315]
We present Sim-to-Real Dense Object Nets (SRDONs), a dense object descriptor that not only understands the object via appropriate representation but also maps simulated and real data to a unified feature space with pixel consistency. We demonstrate in experiments that pre-trained SRDONs significantly improve performances on unseen objects and unseen visual environments for various robotic tasks with zero real-world training.
arXiv Detail & Related papers (2023-04-18T02:28:55Z)
Learning Human-to-Robot Handovers from Point Clouds [63.18127198174958]
We propose the first framework to learn control policies for vision-based human-to-robot handovers. We show significant performance gains over baselines on a simulation benchmark, sim-to-sim transfer and sim-to-real transfer.
arXiv Detail & Related papers (2023-03-30T17:58:36Z)
Sim2real Transfer Learning for Point Cloud Segmentation: An Industrial Application Case on Autonomous Disassembly [55.41644538483948]
We present an industrial application case that uses sim2real transfer learning for point cloud data. We provide insights on how to generate and process synthetic point cloud data. A novel patch-based attention network is proposed additionally to tackle this problem.
arXiv Detail & Related papers (2023-01-12T14:00:37Z)
Imitation Learning for Generalizable Self-driving Policy with Sim-to-real Transfer [0.0]
We present three Imitation Learning and two sim-to-real methods capable of achieving this task. A detailed comparison is provided on these techniques to highlight their advantages and disadvantages.
arXiv Detail & Related papers (2022-06-22T01:36:14Z)
An in-depth experimental study of sensor usage and visual reasoning of robots navigating in real environments [20.105395754497202]
We study the performance and reasoning capacities of real physical agents, trained in simulation and deployed to two different physical environments. We show, that for the PointGoal task, an agent pre-trained on wide variety of tasks and fine-tuned on a simulated version of the target environment can reach competitive performance without modelling any sim2real transfer.
arXiv Detail & Related papers (2021-11-29T16:27:29Z)
Reactive Long Horizon Task Execution via Visual Skill and Precondition Models [59.76233967614774]
We describe an approach for sim-to-real training that can accomplish unseen robotic tasks using models learned in simulation to ground components of a simple task planner. We show an increase in success rate from 91.6% to 98% in simulation and from 10% to 80% success rate in the real-world as compared with naive baselines.
arXiv Detail & Related papers (2020-11-17T15:24:01Z)
RL-CycleGAN: Reinforcement Learning Aware Simulation-To-Real [74.45688231140689]
We introduce the RL-scene consistency loss for image translation, which ensures that the translation operation is invariant with respect to the Q-values associated with the image. We obtain RL-CycleGAN, a new approach for simulation-to-real-world transfer for reinforcement learning.
arXiv Detail & Related papers (2020-06-16T08:58:07Z)

This list is automatically generated from the titles and abstracts of the papers in this site.

This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.