Image Steganography Method to Improve the Stego Image Quality and Security using Reversible Texture Synthesis

One of the crucial aspects of processes and methodologies in the information and communication technology era is the security of information. The security of information should be a key priority in the secret exchange of information between two parties. In order to ensure the security of information, there are some strategies which are used, and they include steganography and cryptography. With cryptography, the secret message is converted into unintelligible text, but the existence of the secret message is noticed, nonetheless, steganography involves hiding the secret message in a way that its presence cannot be noticed. In this paper, a new secure image steganography framework which is known as an adaptive stego key LSB (ASK-LSB) framework is proposed. The construction of the proposed framework was carried out in four phases with the aim of improving the data-hiding algorithm in cover images by using capacity, image quality, and security. To achieve this, the Peak Signal-to-Noise Ratio (PSNR) of the steganography framework was maintained. The four phases began with the image preparation phase, followed by the secret message preparation phase, embedding phase and finally extraction phase. The secure image steganography framework that is proposed in this study is based on a new adaptive of least significant bit substitution method, combination random function, and encryption method. In the proposed work, the secret bits are inserted directly or inversely, thereby enhancing the imperceptibility and complexity of the process of embedding. Results from the experiment reveal that the algorithm has better image quality index, peak signal-to-noise ratio, and payload used in the evaluation of the stego image.

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Secret Key-Based Image Steganography in Spatial Domain

International Journal of Image and Graphics ◽

10.1142/s0219467822500140 ◽

2021 ◽

pp. 2250014

Author(s):

Rajashree Gajabe ◽

Syed Taqi Ali

Keyword(s):

Image Quality ◽

Secure Communication ◽

Image Steganography ◽

Cover Image ◽

Grayscale Image ◽

Secret Key ◽

Stego Image ◽

Digital World ◽

Day By Day

Day by day, the requirement for secure communication among users is rising in a digital world, to protect the message from the undesirable users. Steganography is a methodology that satisfies the user’s necessity of secure communication by inserting a message into different formats. This paper proposes a secret key-based image steganography to secure the message by concealing the grayscale image inside a cover image. The proposed technique shares the 20 characters long secret key between two clients where the initial eight characters of a secret key are utilized for bit permutation of characters and pixels while the last 12 characters of secret key decide the encryption keys and position of pixels of a grayscale image into the cover. The grayscale image undergoes operation such as encryption and chaotic baker followed by its hiding in a cover to form a stego image. The execution of the proposed strategy is performed on Matlab 2018. It shows that the proposed approach manages to store the maximum message of size 16[Formula: see text]KB into the cover of size [Formula: see text]. The image quality of stego images has been evaluated using PSNR, MSE. For a full payload of 16[Formula: see text]KB, PSNR is around 51[Formula: see text]dB to 53[Formula: see text]dB which is greater than satisfactory PSNR.

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A Method to Improve the Stego-Image Quality for Palette-Based Image Steganography

Digital Watermarking - Lecture Notes in Computer Science ◽

10.1007/978-3-540-24624-4_39 ◽

2004 ◽

pp. 483-496

Author(s):

Mei-Yi Wu ◽

Yu-Kun Ho ◽

Jia-Hong Lee

Keyword(s):

Image Quality ◽

Image Steganography ◽

Stego Image

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A High-Capacity Image Steganography Method Using Chaotic Particle Swarm Optimization

Security and Communication Networks ◽

10.1155/2021/6679284 ◽

2021 ◽

Vol 2021 ◽

pp. 1-11

Author(s):

Aya Jaradat ◽

Eyad Taqieddin ◽

Moad Mowafi

Keyword(s):

Particle Swarm Optimization ◽

Image Quality ◽

High Capacity ◽

Particle Swarm ◽

Image Steganography ◽

Embedding Capacity ◽

Secret Data ◽

Stego Image ◽

Swarm Optimization ◽

Chaotic Particle Swarm Optimization

Image steganography has been widely adopted to protect confidential data. Researchers have been seeking to improve the steganographic techniques in order to increase the embedding capacity while preserving the stego-image quality. In this paper, we propose a steganography method using particle swarm optimization and chaos theory aiming at finding the best pixel locations in the cover image to hide the secret data while maintaining the quality of the resultant stego-image. To enhance the embedding capacity, the host and secret images are divided into blocks and each block stores an appropriate amount of secret bits. Experimental results show that the proposed scheme outperforms existing methods in terms of the PSNR and SSIM image quality metrics.

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Quality Factor terhadap Kapasitas Pesan Rahasia pada Steganografi Citra JPEG dan Kualitas Citra Stego

JUSIFO (JURNAL SISTEM INFORMASI) ◽

10.19109/jusifo.v6i2.6608 ◽

2020 ◽

Vol 6 (2) ◽

pp. 89-100

Author(s):

Dian Hafidh Zulfikar

Keyword(s):

Image Quality ◽

Quality Factor ◽

Signal To Noise Ratio ◽

Image Steganography ◽

Secret Message ◽

Q Factor ◽

Stego Image ◽

Jpeg Image ◽

Human Eye

One of the container media that is available and popular is the Joint Photographic Experts Group (JPEG) format image. This article aims to determine the effect of Quality Factor on the secret message capacity of JPEG image steganography and stego image quality. The quality of an image can actually be seen subjectively with the human eye, but this is relative between each individual. Because the assessment of the human eye varies from person to person. In addition, the effect of Quality Factor on secret message capacity is not yet known whether it has an impact. Therefore, in this study the Quality Factor is used to objectively see the secret message capacity of the JPEG image steganography and the quality of the stego image. The parameter used to determine the quality of an image is the Peak Signal to Noise Ratio (PSNR). PSNR will compare the quality of the original image (before steganography) with the stego image. The test results show that the Q Factor effect can affect the secret message capacity of the JPEG image steganography and the stego image quality. The bigger the Q Factor, the more the message capacity is generated. The greater the Q factor, the better the quality of the resulting stego image.

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An Improved Reversible Image Transformation Using K-Means Clustering and Block Patching

Information ◽

10.3390/info10010017 ◽

2019 ◽

Vol 10 (1) ◽

pp. 17 ◽

Cited By ~ 2

Author(s):

Haidong Zhong ◽

Xianyi Chen ◽

Qinglong Tian

Keyword(s):

Image Quality ◽

Data Hiding ◽

Privacy Protection ◽

Reversible Data Hiding ◽

Auxiliary Information ◽

Experimental Results ◽

Image Transformation ◽

Clustering Method ◽

Stego Image ◽

Encrypted Images

Recently, reversible image transformation (RIT) technology has attracted considerable attention because it is able not only to generate stego-images that look similar to target images of the same size, but also to recover the secret image losslessly. Therefore, it is very useful in image privacy protection and reversible data hiding in encrypted images. However, the amount of accessorial information, for recording the transformation parameters, is very large in the traditional RIT method, which results in an abrupt degradation of the stego-image quality. In this paper, an improved RIT method for reducing the auxiliary information is proposed. Firstly, we divide secret and target images into non-overlapping blocks, and classify these blocks into K classes by using the K-means clustering method. Secondly, we match blocks in the last (K-T)-classes using the traditional RIT method for a threshold T, in which the secret and target blocks are paired with the same compound index. Thirdly, the accessorial information (AI) produced by the matching can be represented as a secret segment, and the secret segment can be hided by patching blocks in the first T-classes. Experimental results show that the proposed strategy can reduce the AI and improve the stego-image quality effectively.

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SteganoCNN: Image Steganography with Generalization Ability Based on Convolutional Neural Network

Entropy ◽

10.3390/e22101140 ◽

2020 ◽

Vol 22 (10) ◽

pp. 1140

Author(s):

Xintao Duan ◽

Nao Liu ◽

Mengxiao Gou ◽

Wenxin Wang ◽

Chuan Qin

Keyword(s):

Neural Network ◽

Real Life ◽

Image Steganography ◽

Aerial Images ◽

Remote Sensing Images ◽

Data Types ◽

Stego Image ◽

Payload Capacity ◽

Carrier Image ◽

Entire Network

Image-to-image steganography is hiding one image in another image. However, hiding two secret images into one carrier image is a challenge today. The application of image steganography based on deep learning in real-life is relatively rare. In this paper, a new Steganography Convolution Neural Network (SteganoCNN) model is proposed, which solves the problem of two images embedded in a carrier image and can effectively reconstruct two secret images. SteganoCNN has two modules, an encoding network, and a decoding network, whereas the decoding network includes two extraction networks. First, the entire network is trained end-to-end, the encoding network automatically embeds the secret image into the carrier image, and the decoding network is used to reconstruct two different secret images. The experimental results show that the proposed steganography scheme has a maximum image payload capacity of 47.92 bits per pixel, and at the same time, it can effectively avoid the detection of steganalysis tools while keeping the stego-image undistorted. Meanwhile, StegaoCNN has good generalization capabilities and can realize the steganography of different data types, such as remote sensing images and aerial images.

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Analysis of Least Significant Bit Method Using Sequential Encoding-Decoding in Steganography Digital Image

Proceeding International Conference on Science and Engineering ◽

10.14421/icse.v3.498 ◽

2020 ◽

Vol 3 ◽

pp. 201-205

Author(s):

Nurmi Hidayasari ◽

Febi Yanto

Keyword(s):

Image Quality ◽

Signal To Noise Ratio ◽

Maximum Size ◽

Least Significant Bit ◽

Relevant Research ◽

Stego Image ◽

Check Size ◽

Image Histogram ◽

Hide Data ◽

Histogram Testing

The method of steganography commonly used to hide data or information is Least Significant Bit (LSB) method. One of the relevant research is LSB using sequential Encoding - Decoding by David Pipkorn and Preston Weisbrot. In this research, an analysis of the LSB method using Sequential Encoding - Decoding by doing some testing. The tests are on the aspect of message security using tools StegSpy and enhanced LSB algorithm, testing on image quality by calculating the Peak Signal to Noise Ratio (PSNR) value and see the image histogram, testing on robustness of message by doing some image processing operations on stego image, like cropping, rotating, and etc, and then testing on capacity to check size of cover image and stego image and calculates the maximum size of data that can be hidden. From the testing process, we know that there are deficiencies in the aspects of security, robustness and capacity of a message. And then in this research we try to change the location of messages that are hidden in the image bits, which previous research used the 8th bit of each bytes, changed to the 7th bit. To be able to correct deficiencies in the security aspect. After repairing and testing like before, obtained better results in the security aspect. This can be seen from the image of the enhanced LSB algorithm process, the message is not detected, but unfortunately the image quality is reduced, with the low PSNR value generated.

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High-Capacity Image Steganography Algorithm Based on Image Style Transfer

Security and Communication Networks ◽

10.1155/2021/4179340 ◽

2021 ◽

Vol 2021 ◽

pp. 1-14

Author(s):

Xinliang Bi ◽

Xiaoyuan Yang ◽

Chao Wang ◽

Jia Liu

Keyword(s):

High Capacity ◽

Image Features ◽

Image Steganography ◽

Cover Image ◽

Secret Message ◽

The Internet ◽

Stego Image ◽

Style Transfer ◽

Secret Image ◽

Secret Information

Steganography is a technique for publicly transmitting secret information through a cover. Most of the existing steganography algorithms are based on modifying the cover image, generating a stego image that is very similar to the cover image but has different pixel values, or establishing a mapping relationship between the stego image and the secret message. Attackers will discover the existence of secret communications from these modifications or differences. In order to solve this problem, we propose a steganography algorithm ISTNet based on image style transfer, which can convert a cover image into another stego image with a completely different style. We have improved the decoder so that the secret image features can be fused with style features in a variety of sizes to improve the accuracy of secret image extraction. The algorithm has the functions of image steganography and image style transfer at the same time, and the images it generates are both stego images and stylized images. Attackers will pay more attention to the style transfer side of the algorithm, but it is difficult to find the steganography side. Experiments show that our algorithm effectively increases the steganography capacity from 0.06 bpp to 8 bpp, and the generated stylized images are not significantly different from the stylized images on the Internet.

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A Safe and Secured Medical Textual Information Using an Improved LSB Image Steganography

International Journal of Digital Multimedia Broadcasting ◽

10.1155/2021/8827055 ◽

2021 ◽

Vol 2021 ◽

pp. 1-8

Author(s):

Roseline Oluwaseun Ogundokun ◽

Oluwakemi Christiana Abikoye

Keyword(s):

Medical Information ◽

Medical Data ◽

Image Steganography ◽

Medical Information System ◽

Least Significant Bit ◽

Stego Image ◽

Performance Metric ◽

Challenging Tasks ◽

Multimedia Technologies ◽

Lsb Technique

Safe conveyance of medical data across unsecured networks nowadays is an essential issue in telemedicine. With the exponential growth of multimedia technologies and connected networks, modern healthcare is a huge step ahead. Authentication of a diagnostic image obtained from a specialist at a remote location which is from the sender is one of the most challenging tasks in an automated healthcare setup. Intruders were found to be able to efficiently exploit securely transmitted messages from previous literature since the algorithms were not efficient enough leading to distortion of information. Therefore, this study proposed a modified least significant bit (LSB) technique capable of protecting and hiding medical data to solve the crucial authentication issue. The application was executed and established by utilizing MATLAB 2018a, and it used a logical bit shift operation for execution. The investigational outcomes established that the proposed technique can entrench medical information without leaving a perceptible falsification in the stego image. The result of this implementation shows that the modified LSB image steganography outperformed the standard LSB technique with a higher PSNR value and lower MSE value when compared with previous research works. The number of shifts was added as a new performance metric for the proposed system. The study concluded that the proposed secured medical information system was evidenced to be proficient in secreting medical information and creating undetectable stego images with slight entrenching falsifications when likened to other prevailing approaches.

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