IRIS BIOMETRICS STEGANOGRAPHIC METHOD WITH PIXEL VALUE DIFFERENCING AND HOUGH TRANSFORM FOR HIGHER SECURITY SYSTEM

In biometric security, steganography has become one of the techniques used in defending biometrics data and system. This is due to fraud to the biometric data and illegal activites occured at the biometrics point of system. The biometric data, which in this study, iris, is preprocessed using Hough Transform in producing the iris feature. The pixel values of iris feature is formed, in order to embed the iris feature with the stego key which gained from the cover image (thumbprint from the same trained sample). Studies showed that various techniques of embedding such as least significant bits and pixel value differencing are among popular researches. However, none has been designed for iris implementation in biometrics system. Therefore, a new technique is presented in this paper which integrates pixel value differencing with Hough method in the iris biometrics system. The proposed method modified the pixels values by modifying the most conservative pixels of the block. The theoritical estimation and results produce a scheme which provide a better embedding. The new simulation method provides an embedding capacity, human visual quality and PSNR value is 39.34 dB which is better than the previous methods

Steganography Based on Random Pixel Selection For Efficient Data Hiding

ABSTRACT In this paper we present a novel steganographic approach to increase the security of the data hidden in a cover RGB image. Here we have used LSB insertion method that hides the bits of a secret message into the least significant bit in the red plane of the pixels within a cover image. The pixels are selected by using a random number generator. It is commonly seen that the changes in the LSB of the colour cannot be detected due to noise that is presents in the digital images by the human visual system. The central idea of the proposed method is to increase security, so the data is embedded only into the red plane of the image. We have also explained the method that extracts the hidden message at the receiving end using a key. The main objective of the paper is to combine both the preferences and the resistance to the visual and statistical attacks for a large amount of the data to be hidden in a cover image