感知者-行动者:机器人操作的多任务转换器

Conference on Robot Learning Pub Date : 2022-09-12 DOI:10.48550/arXiv.2209.05451

Mohit Shridhar, Lucas Manuelli, D. Fox

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引用次数: 163

摘要

变形金刚已经彻底改变了视觉和自然语言处理，因为它们具有大规模数据集的能力。但在机器人操作中，数据既有限又昂贵。通过正确的问题表述，操作还能从变形金刚中获益吗?我们用PerAct来研究这个问题，PerAct是一个用于多任务6自由度操作的语言条件行为克隆代理。PerAct使用感知转换器对语言目标和RGB-D体素观察进行编码，并通过“检测下一个最佳体素动作”输出离散动作。与在2D图像上操作的框架不同，体素化的3D观察和动作空间为有效学习6-DoF动作提供了强大的结构先验。有了这个公式，我们为18个RLBench任务(有249个变化)和7个现实世界的任务(有18个变化)训练了一个多任务Transformer，每个任务只有几个演示。我们的结果表明，PerAct在广泛的桌面任务中显著优于非结构化的图像到动作代理和3D ConvNet基线。

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Perceiver-Actor: A Multi-Task Transformer for Robotic Manipulation

Transformers have revolutionized vision and natural language processing with their ability to scale with large datasets. But in robotic manipulation, data is both limited and expensive. Can manipulation still benefit from Transformers with the right problem formulation? We investigate this question with PerAct, a language-conditioned behavior-cloning agent for multi-task 6-DoF manipulation. PerAct encodes language goals and RGB-D voxel observations with a Perceiver Transformer, and outputs discretized actions by ``detecting the next best voxel action''. Unlike frameworks that operate on 2D images, the voxelized 3D observation and action space provides a strong structural prior for efficiently learning 6-DoF actions. With this formulation, we train a single multi-task Transformer for 18 RLBench tasks (with 249 variations) and 7 real-world tasks (with 18 variations) from just a few demonstrations per task. Our results show that PerAct significantly outperforms unstructured image-to-action agents and 3D ConvNet baselines for a wide range of tabletop tasks.

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Conference on Robot Learning

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