Abstract
The exploiting modification direction scheme is a well-known irreversible steganographic method because of its high embedding efficiency and imperceptibility. The shortcomings of the exploiting modification direction scheme are the use of a (<inline-formula> <tex-math notation="LaTeX">$2n +1$ </tex-math></inline-formula>)-ary notational system secret digit and low payload. Some studies transform secret data into a sequence of secret digits in the 8-ary notational system to overcome the disadvantage of using a non-binary secret data problem, which also increases the payload. Additionally, some studies have proposed a two-layer embedding method to enhance data security, which also increases the payload. Besides, most of the EMD-based scheme has the fall of boundary problems when the pixel group is located in the boundary area, which increase the distortion of the stego-image. In this study, we proposed a multilayer steganographic method using an improved exploiting modification direction scheme, which includes the abovementioned advantages, using binary secret data, increasing the payload, enhance data security and preventing the fall of boundary problem. In addition, we demostrate a three-layer EMD-based data hiding example. The experimental results show that the proposed method achieves a high payload (approximately 4.5 bpp) and the quality of the stego-image satisfying the human vision system sensitivity (PSNR value is greater than 30 dB).
Highlights
The popularity of computers and the fascinating development of the Internet have made digital data widely used in the contemporary world
We propose a multilayer steganographic method using an improved exploiting modification direction scheme, which includes the abovementioned advantages, using binary secret data, increasing the payload, and enhancing data security
This study proposes a multilayer steganographic method based on the improved exploiting modification direction (IEMD) scheme [25], which includes the advantages of multilayer embedding, using binary secret data, high payload, and stego-image quality that satisfies the human vision system sensitivity (PSNR value greater than 30 dB)
Summary
The popularity of computers and the fascinating development of the Internet have made digital data widely used in the contemporary world. It is convenient to share large amounts of multimedia data through ubiquitous channels. This has caused consumers to worry about security and privacy issues. Digital steganography is a technology in which the sender conceals secret data in the cover media (e.g., text, sound, images, videos) imperceptibly to obtain the stego-media. After being transmitted to the communication channel, secret data with a specific algorithm can be extracted accurately and completely. Owing to its imperceptible characteristics, stegomedia can defend against aggressive and rude attackers during transmission, which, in some ways, makes differences from cryptographic encryption, another communication security technology. Grayscale images were used as cover media
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