Geometric attacks resistant double zero-watermarking using discrete Fourier transform and fractional-order Exponent-Fourier moments

Zhiqiu Xia; Chunpeng Wang; Bin Ma; Qi Li; Hao Zhang; Mingxu Wang; Xingyuan Wang

Geometric attacks resistant double zero-watermarking using discrete Fourier transform and fractional-order Exponent-Fourier moments

Zhiqiu Xia, Chunpeng Wang, Bin Ma, Qi Li, Hao Zhang, Mingxu Wang, Xingyuan Wang

Published: 01 Jan 2023, Last Modified: 17 Apr 2025Digit. Signal Process. 2023EveryoneRevisionsBibTeXCC BY-SA 4.0

Abstract: Zero-watermarking algorithms provide the means of effective, lossless copyright protection, but the existing ones can only resist a limited variety of geometric attacks. To overcome this limitation, a novel zero-watermarking algorithm resistant to an extensive variety of geometric attacks is suggested, in which fractional-order Exponent-Fourier moments (FrEFMs) and discrete Fourier transform (DFT) are used as complementary geometric invariant features to construct zero-watermarks. Relying on the rotation, scaling, aspect ratio changing and cropping invariance of FrEFMs amplitude and the perfect translation invariance of DFT amplitude, our algorithm can effectively resist a wider variety of geometric and common image processing attacks, which has been experimentally illustrated in this work. Therefore, the proposed zero-watermarking algorithm is superior to other cutting-edge ones.

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