Go to TIFS 2018 homepageRobust Image Fingerprinting Based on Feature Point Relationship Mining
Abstract: Local feature points have been widely employed in robust image fingerprinting. One of their intrinsic advantages is their invariance under geometric transforms. However, their robustness against certain attacks that modify the positions of points, such as additive noising and blurring, is limited. In addition, local-feature-point-based approaches ignore the distribution of the feature points. In this paper, we harness feature point relationships, including local structures and global relevance, to overcome these limitations. In the relationship mining strategy, Delaunay triangulation is first applied to the feature points to capture their geometric structures. Subsequently, local structures are represented by searching for an independent set in the mapping graph constructed via Delaunay triangulation, whereas the global relevance is represented by the Laplacian of the graph. Finally, the local structures and global relevance are used as input to the quantization process of the image fingerprinting system. In the process of quantization, we propose an unsupervised quantization strategy called between-cluster distance-based quantization to preserve the neighborhood structure between the binary fingerprint space and the original feature space. Experimental results show that the proposed method achieves effective performance under common modifications.
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