使用图像增强学习机器人操作任务的密集视觉描述符

Conference on Robot Learning Pub Date : 2022-09-12 DOI:10.48550/arXiv.2209.05213

Christian Graf, David B. Adrian, Joshua Weil, Miroslav Gabriel, Philipp Schillinger, Markus Spies, H. Neumann, A. Kupcsik

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引用次数: 4

摘要

我们提出了一种使用图像增强来学习视图不变密集视觉描述符的自监督训练方法。现有的工作通常需要复杂的数据集，如注册的RGBD序列，与此不同，我们在无序的RGB图像集上进行训练。这允许从单个摄像机视图进行学习，例如，在现有的机器人单元中安装固定安装的摄像机。我们使用数据增强创建合成视图和密集像素对应。我们发现我们的描述符与现有方法相比具有竞争力，尽管数据记录和设置要求更简单。我们表明，对合成对应的训练在广泛的相机视图范围内提供描述符一致性。我们从多个角度比较几何对应的训练，并提供消融研究。我们还展示了一个机器人拾取垃圾箱的实验，使用从固定安装的相机学习的描述符来定义抓取偏好。

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Learning Dense Visual Descriptors using Image Augmentations for Robot Manipulation Tasks

We propose a self-supervised training approach for learning view-invariant dense visual descriptors using image augmentations. Unlike existing works, which often require complex datasets, such as registered RGBD sequences, we train on an unordered set of RGB images. This allows for learning from a single camera view, e.g., in an existing robotic cell with a fix-mounted camera. We create synthetic views and dense pixel correspondences using data augmentations. We find our descriptors are competitive to the existing methods, despite the simpler data recording and setup requirements. We show that training on synthetic correspondences provides descriptor consistency across a broad range of camera views. We compare against training with geometric correspondence from multiple views and provide ablation studies. We also show a robotic bin-picking experiment using descriptors learned from a fix-mounted camera for defining grasp preferences.

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Conference on Robot Learning

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