Related papers: ManiWAV: Learning Robot Manipulation from In-the-Wild Audio-Visual Data

ManiWAV: Learning Robot Manipulation from In-the-Wild Audio-Visual Data

URL: http://arxiv.org/abs/2406.19464v2
Date: Mon, 04 Nov 2024 02:21:30 GMT
Title: ManiWAV: Learning Robot Manipulation from In-the-Wild Audio-Visual Data
Authors: Zeyi Liu, Cheng Chi, Eric Cousineau, Naveen Kuppuswamy, Benjamin Burchfiel, Shuran Song,
Abstract summary: We introduce ManiWAV: an 'ear-in-hand' data collection device to collect in-the-wild human demonstrations with synchronous audio and visual feedback. We show that our system can generalize to unseen in-the-wild environments by learning from diverse in-the-wild human demonstrations.
Score: 28.36623343236893
License:
Abstract: Audio signals provide rich information for the robot interaction and object properties through contact. This information can surprisingly ease the learning of contact-rich robot manipulation skills, especially when the visual information alone is ambiguous or incomplete. However, the usage of audio data in robot manipulation has been constrained to teleoperated demonstrations collected by either attaching a microphone to the robot or object, which significantly limits its usage in robot learning pipelines. In this work, we introduce ManiWAV: an 'ear-in-hand' data collection device to collect in-the-wild human demonstrations with synchronous audio and visual feedback, and a corresponding policy interface to learn robot manipulation policy directly from the demonstrations. We demonstrate the capabilities of our system through four contact-rich manipulation tasks that require either passively sensing the contact events and modes, or actively sensing the object surface materials and states. In addition, we show that our system can generalize to unseen in-the-wild environments by learning from diverse in-the-wild human demonstrations.

Related papers

Open-TeleVision: Teleoperation with Immersive Active Visual Feedback [17.505318269362512]
Open-TeleVision allows operators to actively perceive the robot's surroundings in a stereoscopic manner. The system mirrors the operator's arm and hand movements on the robot, creating an immersive experience. We validate the effectiveness of our system by collecting data and training imitation learning policies on four long-horizon, precise tasks.
arXiv Detail & Related papers (2024-07-01T17:55:35Z)
Giving Robots a Hand: Learning Generalizable Manipulation with Eye-in-Hand Human Video Demonstrations [66.47064743686953]
Eye-in-hand cameras have shown promise in enabling greater sample efficiency and generalization in vision-based robotic manipulation. Videos of humans performing tasks, on the other hand, are much cheaper to collect since they eliminate the need for expertise in robotic teleoperation. In this work, we augment narrow robotic imitation datasets with broad unlabeled human video demonstrations to greatly enhance the generalization of eye-in-hand visuomotor policies.
arXiv Detail & Related papers (2023-07-12T07:04:53Z)
Learning Video-Conditioned Policies for Unseen Manipulation Tasks [83.2240629060453]
Video-conditioned Policy learning maps human demonstrations of previously unseen tasks to robot manipulation skills. We learn our policy to generate appropriate actions given current scene observations and a video of the target task. We validate our approach on a set of challenging multi-task robot manipulation environments and outperform state of the art.
arXiv Detail & Related papers (2023-05-10T16:25:42Z)
Open-World Object Manipulation using Pre-trained Vision-Language Models [72.87306011500084]
For robots to follow instructions from people, they must be able to connect the rich semantic information in human vocabulary. We develop a simple approach, which leverages a pre-trained vision-language model to extract object-identifying information. In a variety of experiments on a real mobile manipulator, we find that MOO generalizes zero-shot to a wide range of novel object categories and environments.
arXiv Detail & Related papers (2023-03-02T01:55:10Z)
Learning Reward Functions for Robotic Manipulation by Observing Humans [92.30657414416527]
We use unlabeled videos of humans solving a wide range of manipulation tasks to learn a task-agnostic reward function for robotic manipulation policies. The learned rewards are based on distances to a goal in an embedding space learned using a time-contrastive objective.
arXiv Detail & Related papers (2022-11-16T16:26:48Z)
From One Hand to Multiple Hands: Imitation Learning for Dexterous Manipulation from Single-Camera Teleoperation [26.738893736520364]
We introduce a novel single-camera teleoperation system to collect the 3D demonstrations efficiently with only an iPad and a computer. We construct a customized robot hand for each user in the physical simulator, which is a manipulator resembling the same kinematics structure and shape of the operator's hand. With imitation learning using our data, we show large improvement over baselines with multiple complex manipulation tasks.
arXiv Detail & Related papers (2022-04-26T17:59:51Z)
Visual Imitation Made Easy [102.36509665008732]
We present an alternate interface for imitation that simplifies the data collection process while allowing for easy transfer to robots. We use commercially available reacher-grabber assistive tools both as a data collection device and as the robot's end-effector. We experimentally evaluate on two challenging tasks: non-prehensile pushing and prehensile stacking, with 1000 diverse demonstrations for each task.
arXiv Detail & Related papers (2020-08-11T17:58:50Z)
Learning Predictive Models From Observation and Interaction [137.77887825854768]
Learning predictive models from interaction with the world allows an agent, such as a robot, to learn about how the world works. However, learning a model that captures the dynamics of complex skills represents a major challenge. We propose a method to augment the training set with observational data of other agents, such as humans.
arXiv Detail & Related papers (2019-12-30T01:10:41Z)

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