Vision-Language Foundation Models as Effective Robot Imitators

Xinghang Li; Minghuan Liu; Hanbo Zhang; Cunjun Yu; Jie Xu; Hongtao Wu; Chilam Cheang; Ya Jing; Weinan Zhang; Huaping Liu; Hang Li; Tao Kong

Vision-Language Foundation Models as Effective Robot Imitators

Xinghang Li, Minghuan Liu, Hanbo Zhang, Cunjun Yu, Jie Xu, Hongtao Wu, Chilam Cheang, Ya Jing, Weinan Zhang, Huaping Liu, Hang Li, Tao Kong

Published: 16 Jan 2024, Last Modified: 05 Mar 2024ICLR 2024 spotlightEveryoneRevisionsBibTeX

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Keywords: Large Visual Language Model, Robotics, Imitation Learning

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Abstract: Recent progress in vision language foundation models has shown their ability to understand multimodal data and resolve complicated vision language tasks, including robotics manipulation. We seek a straightforward way of making use of existing vision-language models (VLMs) with simple fine-tuning on robotics data. To this end, we derive a simple and novel vision-language manipulation framework, dubbed RoboFlamingo, built upon the open-source VLMs, OpenFlamingo. Unlike prior works, RoboFlamingo utilizes pre-trained VLMs for single-step vision-language comprehension, models sequential history information with an explicit policy head, and is slightly fine-tuned by imitation learning only on language-conditioned manipulation datasets. Such a decomposition provides RoboFlamingo the flexibility for open-loop control and deployment on low-performance platforms. By exceeding the state-of-the-art performance with a large margin on the tested benchmark, we show RoboFlamingo can be an effective and competitive alternative to adapt VLMs to robot control. Our extensive experimental results also reveal several interesting conclusions regarding the behavior of different pre-trained VLMs on manipulation tasks. We believe RoboFlamingo has the potential to be a cost-effective and easy-to-use solution for robotics manipulation, empowering everyone with the ability to fine-tune their own robotics policy. Our code will be made public upon acceptance.

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Primary Area: representation learning for computer vision, audio, language, and other modalities

Submission Number: 696

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