Abstract
The main objective for a watermarking technique is to attain imperceptibility, robustness and security against various malicious attacks applied by illicit users. To fulfil these basic requirements for a scheme is a big issue of concern. So, in this paper, a new image watermarking method is proposed which utilizes properties of homomorphic transform, Redundant Discrete Wavelet Transform (RDWT), Arnold Transform (AT) along with Singular Value Decomposition (SVD) to attain these required properties. RDWT is performed on host image to achieve LL subband. This LL subband image is further decomposed into illumination and reflectance components by homomorphic transform. In order to strengthen security of proposed scheme, AT is used to scramble watermark. This scrambled watermark is embedded with Singular Values (SVs) of reflectance component which are obtained by applying SVD to it. Since reflectance component contains important features of image, therefore, embedding of watermark in this part provides excellent imperceptibility. Proposed scheme is comprehensively examined against different attacks like scaling, shearing etc. for its robustness. Comparative study with other prevailing algorithms clearly reveals superiority of proposed scheme in terms of robustness and imperceptibility.
Highlights
In recent times, forgery related to various digital multimedia such as images, video etc. is carried out by illegitimate attackers
In [15], authors reported method using Finite Radon Transform (FRAT) in which FRAT is applied on host image, subsequently Discrete Wavelet Transform (DWT) is applied yielding various subbands followed by Singular Value Decomposition (SVD)
Singular Values (SVs) of watermark are embedded with SVs of transformed host image, this method results in weak robustness
Summary
Forgery related to various digital multimedia such as images, video etc. is carried out by illegitimate attackers. In [11], authors investigated a method which is similar to [10], the only key difference is that directly watermark is embedded into SVs of subbands by which scheme become blind. Reflectance component is obtained with help of homomorphic transform of cover image and SVs of reflectance component are directly embedded with watermark. This approach is extended to block level, where reflectance component is segmented into blocks and embedding of watermark is performed at block level. Khare et al [14] investigated method using DWT and chaotic mapping, in which watermark is randomized with help of logistic mapping, in order to boost security This encrypted watermark is embedded with wavelet coefficients of cover image
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