Emergence of Human to Robot Transfer in Vision-Language-Action Models
This addresses the problem of data scarcity for robot learning by leveraging abundant human videos, though it is incremental as it builds on existing VLA and large language model concepts.
The paper tackled the challenge of enabling vision-language-action models to transfer skills from human videos to robots without manual engineering, and found that with diverse pre-training, performance on generalization settings seen only in human data nearly doubled.
Vision-language-action (VLA) models can enable broad open world generalization, but require large and diverse datasets. It is appealing to consider whether some of this data can come from human videos, which cover diverse real-world situations and are easy to obtain. However, it is difficult to train VLAs with human videos alone, and establishing a mapping between humans and robots requires manual engineering and presents a major research challenge. Drawing inspiration from advances in large language models, where the ability to learn from diverse supervision emerges with scale, we ask whether a similar phenomenon holds for VLAs that incorporate human video data. We introduce a simple co-training recipe, and find that human-to-robot transfer emerges once the VLA is pre-trained on sufficient scenes, tasks, and embodiments. Our analysis suggests that this emergent capability arises because diverse pretraining produces embodiment-agnostic representations for human and robot data. We validate these findings through a series of experiments probing human to robot skill transfer and find that with sufficiently diverse robot pre-training our method can nearly double the performance on generalization settings seen only in human data.