AI Article Synopsis
- Most research in image decomposition has mainly focused on individual images without considering the context from multiple images, which limits effectiveness.
- The paper introduces a novel approach that leverages multilabel context across images, emphasizing that similar local labels should be grouped while distinct labels are differentiated.
- The authors frame this issue as an optimization problem and provide two solutions, showing that their method significantly enhances applications like multilabel image annotation and label ranking, supported by positive results from extensive experiments.
Article Abstract
Most research on image decomposition, e.g., image segmentation and image parsing, has predominantly focused on the low-level visual clues within a single image and neglected the contextual information across images. In this paper, we present a new perspective to image decomposition piloted by the multilabel context associated with each individual image. Observing that the contextual information (i.e., local label representations of the same label are similar while those from different labels are dissimilar) exists across images, we propose to perform image decomposition in a collective way and obtain an optimal representation for each label from a set of multilabeled images. We formulate the problem as an optimization problem which maximizes inter-label difference while minimizing the intra-label difference of the target label representations and propose two ways to solve this problem. Such a contextual image decomposition has a wide variety of applications, among which two exemplary ones-multilabel image annotation and label ranking, are presented and evaluated with different classification techniques. Extensive experiments on two benchmark datasets demonstrate promising results.
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| http://dx.doi.org/10.1109/TIP.2010.2103081 | DOI Listing |
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