Abstract
Due to the increased number of cyberattacks, numerous researchers are motivated towards the design of such schemes that can hide digital information in a signal. Watermarking is one of the promising technologies that can protect digital information. However, traditional watermarking schemes are either slow or less secure. In this paper, a dynamic S-Box based efficient watermarking scheme is presented. The original image was extracted at the receiver’s end without any loss of sensitive information. Firstly, the Secure Hash Algorithm is applied to the original image for the generation of the initial condition. Piece Wise Linear Chaotic Map is then used to generate 16 times 16 dynamic Substitution Box (S-Box). As an additional security feature, the watermark is substituted through dynamic S-Box. Hence, it is hard for the eavesdroppers to attack the proposed scheme due to the dynamic nature of S-Box. Lastly, lifting wavelet transform is applied to the host image and the High Low and High High blocks of host image are replaced with least significant bits and most significant bits of the substituted watermark, respectively. Robustness, efficiency and security of the proposed scheme is verified using Structure Similarity Index, Structure Dissimilarity Index, Structure Content, Mutual Information, energy, entropy, correlation tests and classical attacks analysis.
Highlights
Transmission of multimedia data such as images, videos and audios has significantly increased in the last decade
The dynamic Substitution Box (S-Box) and PWLCM strengthen the security of the proposed scheme due to the dynamic nature
The initial condition for PWLCM was generated from the SHA − 256
Summary
Transmission of multimedia data such as images, videos and audios has significantly increased in the last decade. Das et al utilized the correlation among DCT adjacent coefficients and designed a blind efficient image watermarking scheme in the transform domain [12]. Authors in [24], presented sub-sampling and Discrete Wavelet Transform (DWT) based watermarking scheme in the frequency domain. Dawei et al designed a chaos-based watermarking scheme for still images by transforming the image into the frequency domain. In [29], a novel chaos-based fragile watermarking scheme for image authentication and tamper detection was presented. Ghebleh et al proposed blind frequency domain watermarking scheme using Logistic and Arnold chaotic maps [15]. According to [15], the proposed wavelet transform based algorithm inserts a white and black watermark logo in the mid-band component of the host image. Roy et al developed a DCT-based blind colour watermarking scheme for inserting multiple watermarks simultaneously [30]
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