IMAGE AUTHENTICATION UNDER GEOMETRIC ATTACKS VIA STRUCTURE MATCHING (WedPmOR6)

Author(s) : Vishal Monga (University of Texas, Austin, United States of America) Divyanshu Vats (University of Texas, Austin, United States of America) Brian Evans (University of Texas, Austin, United States of America)

Abstract : Surviving geometric attacks in image authentication is con- sidered to be of great importance. This is because of the vulnerability of classical watermarking and digital signature based schemes to geometric image manipulations, particu- larly local geometric attacks. In this paper, we present a general framework for image content authentication using salient feature points. We first develop an iterative feature detector based on an explicit modeling of the human visual system. Then, we compare features from two images by developing a generalized Hausdorff distance measure. The use of such a distance measure is crucial to the robustness of the scheme, and accounts for feature detector failure or occlusion, which previously proposed methods do not address. The proposed algorithm withstands standard benchmark (e.g. Stirmark) attacks including compression, common signal processing operations, global as well as local geometric transformations, and even hard to model distortions such as print and scan. Content changing (malicious) manipulations of image data are also accurately detected.

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