Robust and dynamic image zero watermarking using hessian laplace detector and logistic map

In this digital world due to rapid growth in image processing technology and internet, Piracy of the images is becoming more and more serious problem. In order to prohibit such piracy, watermarking is widely used approach. In conventional watermarking, watermark is inserted in host image by modifying its original information. This approach creates a trade-off between robustness and imperceptibility. To overcome this, zero watermarking is used. In this process instead of embedding watermark, it is created using host image and original watermark of ownership identification. Zero Watermarking does not alter original information of the image and provides perfect imperceptibility. In this paper we are proposing a robust and dynamic zero watermarking using Hessian Laplace Detector and Logistic map. Here, Feature points of host image are detected using Hessian Laplace detector and used along with original watermark of ownership identity for constructing zero-watermark. Finally constructed zero-watermark is scrambled using Logistic map to improve its security before storing it into database. Our dynamic approach lets original watermark size to be solely decided by total number of detected feature points and all pixels of original watermark to be used for creating zero-watermark. We have compared our algorithm with previous work and got better reconstruction of original watermark under noise, filtering, compression, translation and cropping attacks.