A steganographic approach based on the chaotic fractional map and in the DCT domain
This work addresses the need for more secure and imperceptible steganographic systems for applications like data hiding and digital watermarking, but it appears incremental as it builds on existing chaotic and DCT-based approaches.
The paper tackled the problem of secure image steganography by proposing a method based on a chaotic fractional map and DCT domain embedding, which improved imperceptibility and security, as shown by increased PSNR and reduced Relative Entropy values.
A steganographic method based on the chaotic fractional map and in the DCT domain is proposed. This method embeds a secret message in some high frequency coefficients of the image using a 128-bit private key and a chaotic fractional map which generate a permutation indicating the positions where the secret bits will be embedded. An experimental work on the validation of the proposed method is also presented, showing performance in imperceptibility, quality, similarity and security analysis of the steganographic system. The proposed algorithm improved the level of imperceptibility and Cachin's security of stego-system analyzed through the values of Peak Signal-to-Noise Ratio (PSNR) and the Relative Entropy (RE).