Related papers: Train Offline, Test Online: A Real Robot Learning Benchmark

Train Offline, Test Online: A Real Robot Learning Benchmark

URL: http://arxiv.org/abs/2306.00942v2
Date: Fri, 30 Jun 2023 19:24:32 GMT
Title: Train Offline, Test Online: A Real Robot Learning Benchmark
Authors: Gaoyue Zhou, Victoria Dean, Mohan Kumar Srirama, Aravind Rajeswaran, Jyothish Pari, Kyle Hatch, Aryan Jain, Tianhe Yu, Pieter Abbeel, Lerrel Pinto, Chelsea Finn, Abhinav Gupta
Abstract summary: Train Offline, Test Online (TOTO) provides remote users with access to shared robotic hardware for evaluating methods on common tasks. We present initial results on TOTO comparing five pretrained visual representations and four offline policy learning baselines, remotely contributed by five institutions. The real promise of TOTO, however, lies in the future: we release the benchmark for additional submissions from any user, enabling easy, direct comparison to several methods without the need to obtain hardware or collect data.
Score: 113.19664479709587
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Three challenges limit the progress of robot learning research: robots are expensive (few labs can participate), everyone uses different robots (findings do not generalize across labs), and we lack internet-scale robotics data. We take on these challenges via a new benchmark: Train Offline, Test Online (TOTO). TOTO provides remote users with access to shared robotic hardware for evaluating methods on common tasks and an open-source dataset of these tasks for offline training. Its manipulation task suite requires challenging generalization to unseen objects, positions, and lighting. We present initial results on TOTO comparing five pretrained visual representations and four offline policy learning baselines, remotely contributed by five institutions. The real promise of TOTO, however, lies in the future: we release the benchmark for additional submissions from any user, enabling easy, direct comparison to several methods without the need to obtain hardware or collect data.

Related papers

A Retrospective on the Robot Air Hockey Challenge: Benchmarking Robust, Reliable, and Safe Learning Techniques for Real-world Robotics [53.33976793493801]
We organized the Robot Air Hockey Challenge at the NeurIPS 2023 conference. We focus on practical challenges in robotics, such as the sim-to-real gap, low-level control issues, safety problems, real-time requirements, and the limited availability of real-world data. Results show that solutions combining learning-based approaches with prior knowledge outperform those relying solely on data when real-world deployment is challenging.
arXiv Detail & Related papers (2024-11-08T17:20:47Z)
Generalized Robot Learning Framework [10.03174544844559]
We present a low-cost robot learning framework that is both easily reproducible and transferable to various robots and environments. We demonstrate that deployable imitation learning can be successfully applied even to industrial-grade robots.
arXiv Detail & Related papers (2024-09-18T15:34:31Z)
Scaling Cross-Embodied Learning: One Policy for Manipulation, Navigation, Locomotion and Aviation [49.03165169369552]
By training a single policy across many different kinds of robots, a robot learning method can leverage much broader and more diverse datasets. We propose CrossFormer, a scalable and flexible transformer-based policy that can consume data from any embodiment. We demonstrate that the same network weights can control vastly different robots, including single and dual arm manipulation systems, wheeled robots, quadcopters, and quadrupeds.
arXiv Detail & Related papers (2024-08-21T17:57:51Z)
Real Robot Challenge 2022: Learning Dexterous Manipulation from Offline Data in the Real World [38.54892412474853]
The Real Robot Challenge 2022 served as a bridge between the reinforcement learning and robotics communities. We asked the participants to learn two dexterous manipulation tasks involving pushing, grasping, and in-hand orientation from provided real-robot datasets. An extensive software documentation and an initial stage based on a simulation of the real set-up made the competition particularly accessible.
arXiv Detail & Related papers (2023-08-15T12:40:56Z)
Self-Improving Robots: End-to-End Autonomous Visuomotor Reinforcement Learning [54.636562516974884]
In imitation and reinforcement learning, the cost of human supervision limits the amount of data that robots can be trained on. In this work, we propose MEDAL++, a novel design for self-improving robotic systems. The robot autonomously practices the task by learning to both do and undo the task, simultaneously inferring the reward function from the demonstrations.
arXiv Detail & Related papers (2023-03-02T18:51:38Z)
Learning to Fold Real Garments with One Arm: A Case Study in Cloud-Based Robotics Research [21.200764836237497]
We present the first systematic benchmarking of fabric manipulation algorithms on physical hardware. We develop 4 novel learning-based algorithms that model expert actions, keypoints, reward functions, and dynamic motions. The entire lifecycle of data collection, model training, and policy evaluation is performed remotely without physical access to the robot workcell.
arXiv Detail & Related papers (2022-04-21T17:31:20Z)
Lifelong Robotic Reinforcement Learning by Retaining Experiences [61.79346922421323]
Many multi-task reinforcement learning efforts assume the robot can collect data from all tasks at all times. In this work, we study a practical sequential multi-task RL problem motivated by the practical constraints of physical robotic systems. We derive an approach that effectively leverages the data and policies learned for previous tasks to cumulatively grow the robot's skill-set.
arXiv Detail & Related papers (2021-09-19T18:00:51Z)
Actionable Models: Unsupervised Offline Reinforcement Learning of Robotic Skills [93.12417203541948]
We propose the objective of learning a functional understanding of the environment by learning to reach any goal state in a given dataset. We find that our method can operate on high-dimensional camera images and learn a variety of skills on real robots that generalize to previously unseen scenes and objects.
arXiv Detail & Related papers (2021-04-15T20:10:11Z)

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