VIMA: General Robot Manipulation with Multimodal Prompts

Prompt-based learning has emerged as a successful paradigm in natural language processing, where a single general-purpose language model can be instructed to perform any task specified by input prompts. Yet task specification in robotics comes in various forms, such as imitating one-shot demonstrati...

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Bibliographic Details
Published in:arXiv.org 2023-05
Main Authors: Jiang, Yunfan, Gupta, Agrim, Zhang, Zichen, Wang, Guanzhi, Dou, Yongqiang, Chen, Yanjun, Li, Fei-Fei, Anandkumar, Anima, Zhu, Yuke, Fan, Linxi
Format: Article
Language:English
Subjects:
Benchmarks
Learning
Natural language processing
Robotics
Robots
Source code
Training
Online Access:Get full text
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Summary:Prompt-based learning has emerged as a successful paradigm in natural language processing, where a single general-purpose language model can be instructed to perform any task specified by input prompts. Yet task specification in robotics comes in various forms, such as imitating one-shot demonstrations, following language instructions, and reaching visual goals. They are often considered different tasks and tackled by specialized models. We show that a wide spectrum of robot manipulation tasks can be expressed with multimodal prompts, interleaving textual and visual tokens. Accordingly, we develop a new simulation benchmark that consists of thousands of procedurally-generated tabletop tasks with multimodal prompts, 600K+ expert trajectories for imitation learning, and a four-level evaluation protocol for systematic generalization. We design a transformer-based robot agent, VIMA, that processes these prompts and outputs motor actions autoregressively. VIMA features a recipe that achieves strong model scalability and data efficiency. It outperforms alternative designs in the hardest zero-shot generalization setting by up to \(2.9\times\) task success rate given the same training data. With \(10\times\) less training data, VIMA still performs \(2.7\times\) better than the best competing variant. Code and video demos are available at https://vimalabs.github.io/
ISSN:2331-8422