Litcius/Paper detail

New Color Image Zero-Watermarking Using Orthogonal Multi-Channel Fractional-Order Legendre-Fourier Moments

Khalid M. Hosny, Mohamed Darwish, Mostafa M. Fouda

2021IEEE Access30 citationsDOIOpen Access PDF

Abstract

Zero-watermarking methods provide promising solutions and impressive performance for copyright protection of images without changing the original images. In this paper, a novel zero-watermarking method for color images is envisioned. Our envisioned approach is based on multi-channel orthogonal Legendre Fourier moments of fractional orders, referred to as MFrLFMs. In this method, a highly precise Gaussian integration method is utilized to calculate MFrLFMs. Then, based on the selected accurate MFrLFMs moments, a zero-watermark is constructed. Due to their accuracy, geometric invariances, and numerical stability, the proposed MFrLFMs-based zero-watermarking method shows excellent resistance against various attacks. Performed experiments using the proposed watermarking method show the outperformance over existing watermarking algorithms.

Topics & Concepts

Digital watermarkingLegendre polynomialsWatermarkAlgorithmComputer scienceGaussianZero orderStability (learning theory)Fourier transformImage (mathematics)Zero (linguistics)Legendre waveletChannel (broadcasting)MathematicsArtificial intelligenceWaveletWavelet transformApplied mathematicsDiscrete wavelet transformMathematical analysisFirst orderPhilosophyQuantum mechanicsMachine learningPhysicsLinguisticsComputer networkAdvanced Steganography and Watermarking TechniquesChaos-based Image/Signal EncryptionDigital Media Forensic Detection