High-Capacity Reversible Data Hiding in SMVQ Compressed Images Using Index-Replacement Strategy

In this paper, we propose a frequency domain data hiding method for the JPEG compressed images. The proposed method embeds data in the DCT coefficients of the selected 8 × 8 blocks. According to the theories of Human Visual Systems (HVS), human vision is less sensitive to perturbation of pixel values in the uneven areas of the image. In this paper we propose a Singular Value Decomposition based image roughness measure (SVD-IRM) using which we select the coarse 8 × 8 blocks as data embedding destinations. Moreover, to make the embedded data more robust against re-compression attack and error due to transmission over noisy channels, we employ Turbo error correcting codes. The actual data embedding is done using a proposed variant of matrix encoding that is capable of embedding three bits by modifying only one bit in block of seven carrier features. We have carried out experiments to validate the performance and it is found that the proposed method achieves better payload capacity and visual quality and is more robust than some of the recent state-of-the-art methods proposed in the literature.

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High capacity reversible data hiding in encrypted images based on prediction error and block classification

Multimedia Tools and Applications ◽

10.1007/s11042-021-11143-0 ◽

2021 ◽

Author(s):

Xu Wang ◽

Chin-Chen Chang ◽

Chia-Chen Lin

Keyword(s):

Data Hiding ◽

Prediction Error ◽

Reversible Data Hiding ◽

High Capacity ◽

Block Classification ◽

Encrypted Images

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Efficient Reversible Data Hiding Scheme for AMBTC-Compressed Images

Applied Sciences ◽

10.3390/app11156741 ◽

2021 ◽

Vol 11 (15) ◽

pp. 6741

Author(s):

Chia-Chen Lin ◽

Thai-Son Nguyen ◽

Chin-Chen Chang ◽

Wen-Chi Chang

Keyword(s):

Data Hiding ◽

Free Space ◽

Reversible Data Hiding ◽

Secret Message ◽

Embedding Capacity ◽

Absolute Moment ◽

Compressed Images ◽

High Embedding Capacity ◽

Significant Attention ◽

Efficiency Rate

Reversible data hiding has attracted significant attention from researchers because it can extract an embedded secret message correctly and recover a cover image without distortion. In this paper, a novel, efficient reversible data hiding scheme is proposed for absolute moment block truncation code (AMBTC) compressed images. The proposed scheme is based on the high correlation of neighboring values in two mean tables of AMBTC-compressed images to further losslessly encode these values and create free space for containing a secret message. Experimental results demonstrated that the proposed scheme obtained a high embedding capacity and guaranteed the same PSNRs as the traditional AMBTC algorithm. In addition, the proposed scheme achieved a higher embedding capacity and higher efficiency rate than those of some previous schemes while maintaining an acceptable bit rate.

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High-Capacity Reversible Data Hiding in Encrypted Images by Information Preprocessing

Complexity ◽

10.1155/2020/6989452 ◽

2020 ◽

Vol 2020 ◽

pp. 1-12

Author(s):

Xi-Yan Li ◽

Xia-Bing Zhou ◽

Qing-Lei Zhou ◽

Shi-Jing Han ◽

Zheng Liu

Keyword(s):

Data Hiding ◽

Reversible Data Hiding ◽

High Capacity ◽

Main Idea ◽

Original Image ◽

Chaos Encryption ◽

Secret Information ◽

Encrypted Image ◽

Encrypted Images ◽

Scanned Documents

With the development of cloud computing, high-capacity reversible data hiding in an encrypted image (RDHEI) has attracted increasing attention. The main idea of RDHEI is that an image owner encrypts a cover image, and then a data hider embeds secret information in the encrypted image. With the information hiding key, a receiver can extract the embedded data from the hidden image; with the encryption key, the receiver reconstructs the original image. In this paper, we can embed data in the form of random bits or scanned documents. The proposed method takes full advantage of the spatial correlation in the original images to vacate the room for embedding information before image encryption. By jointly using Sudoku and Arnold chaos encryption, the encrypted images retain the vacated room. Before the data hiding phase, the secret information is preprocessed by a halftone, quadtree, and S-BOX transformation. The experimental results prove that the proposed method not only realizes high-capacity reversible data hiding in encrypted images but also reconstructs the original image completely.

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