基于一致功能映射的图像共分割

F. Wang, Qi-Xing Huang, L. Guibas
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引用次数: 126

摘要

图像集的联合分割对于目标识别、图像分类和图像检索具有重要意义。在本文中,我们的目标是从少量标记图像或根本没有标记图像开始联合分割一组图像。为了使图像之间能够共享分割信息,我们构建了一个包含分割图像和未分割图像的网络,并根据图像的外观特征提取连接图像对之间的功能映射。这些功能映射充当图像之间的一般属性传输器,特别是用于传输分割。我们定义了一个简化的功能空间,并对其进行了优化,使网络中的功能映射近似地满足组合条件下的循环一致性。提出了一种联合优化框架,在图像上同时生成所有的分割函数,使其在每个特定图像上既与局部分割线索对齐,又在网络传输下相互一致。这个公式允许我们在没有训练数据的情况下提取分割,但也可以在可用的情况下利用这些数据。如iCoseg、MSRC和PASCAL数据集所示,使用功能图的联合处理的集体效应导致图像之间准确的信息共享,并产生卓越的分割结果。
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Image Co-segmentation via Consistent Functional Maps
Joint segmentation of image sets has great importance for object recognition, image classification, and image retrieval. In this paper, we aim to jointly segment a set of images starting from a small number of labeled images or none at all. To allow the images to share segmentation information with each other, we build a network that contains segmented as well as unsegmented images, and extract functional maps between connected image pairs based on image appearance features. These functional maps act as general property transporters between the images and, in particular, are used to transfer segmentations. We define and operate in a reduced functional space optimized so that the functional maps approximately satisfy cycle-consistency under composition in the network. A joint optimization framework is proposed to simultaneously generate all segmentation functions over the images so that they both align with local segmentation cues in each particular image, and agree with each other under network transportation. This formulation allows us to extract segmentations even with no training data, but can also exploit such data when available. The collective effect of the joint processing using functional maps leads to accurate information sharing among images and yields superior segmentation results, as shown on the iCoseg, MSRC, and PASCAL data sets.
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