Pose and category recognition of highly deformable objects using deep learning

I. Mariolis, Georgia Peleka, A. Kargakos, S. Malassiotis
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引用次数: 56

Abstract

Category and pose recognition of highly deformable objects is considered a challenging problem in computer vision and robotics. In this study, we investigate recognition and pose estimation of garments hanging from a single point, using a hierarchy of deep convolutional neural networks. The adopted framework contains two layers. The deep convolutional network of the first layer is used for classifying the garment to one of the predefined categories, whereas in the second layer a category specific deep convolutional network performs pose estimation. The method has been evaluated using both synthetic and real datasets of depth images and an actual robotic platform. Experiments demonstrate that the task at hand may be performed with sufficient accuracy, to allow application in several practical scenarios.
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使用深度学习的高度可变形物体的姿态和类别识别
高度可变形物体的类别和姿态识别是计算机视觉和机器人领域的一个具有挑战性的问题。在本研究中,我们使用深度卷积神经网络的层次结构来研究从单个点悬挂的服装的识别和姿势估计。采用的框架包含两层。第一层的深度卷积网络用于将服装分类到预定义的类别之一,而在第二层中,特定类别的深度卷积网络执行姿态估计。该方法已使用合成和真实深度图像数据集以及实际机器人平台进行了评估。实验表明,手头的任务可以以足够的精度执行,以允许在几个实际场景中应用。
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