A pixel permutation based image encryption technique using chaotic map

This research presents a method of image encryption that has been designed based on the algorithm of complete shuffling, transformation of substitution box, and predicated image crypto-system. This proposed algorithm presents extra confusion in the first phase because of including an S-box based on using substitution by AES algorithm in encryption and its inverse in Decryption. In the second phase, shifting and rotation were used based on secrete key in each channel depending on the result from the chaotic map, 2D logistic map and the output was processed and used for the encryption algorithm. It is known from earlier studies that simple encryption of images based on the scheme of shuffling is insecure in the face of chosen cipher text attacks. Later, an extended algorithm has been projected. This algorithm performs well against chosen cipher text attacks. In addition, the proposed approach was analyzed for NPCR, UACI (Unified Average Changing Intensity), and Entropy analysis for determining its strength.

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A New Image Encryption Scheme Using Dual Chaotic Map Synchronization

The International Arab Journal of Information Technology ◽

10.34028/iajit/18/1/11 ◽

2020 ◽

Vol 18 (1) ◽

Keyword(s):

Image Encryption ◽

Chaotic Systems ◽

Initial Conditions ◽

Chaotic Map ◽

Security Applications ◽

The Common ◽

And Diffusion ◽

Confusion And Diffusion ◽

Sensitivity To Initial Conditions ◽

Diffusion Properties

Chaotic systems behavior attracts many researchers in the field of image encryption. The major advantage of using chaos as the basis for developing a crypto-system is due to its sensitivity to initial conditions and parameter tunning as well as the random-like behavior which resembles the main ingredients of a good cipher namely the confusion and diffusion properties. In this article, we present a new scheme based on the synchronization of dual chaotic systems namely Lorenz and Chen chaotic systems and prove that those chaotic maps can be completely synchronized with other under suitable conditions and specific parameters that make a new addition to the chaotic based encryption systems. This addition provides a master-slave configuration that is utilized to construct the proposed dual synchronized chaos-based cipher scheme. The common security analyses are performed to validate the effectiveness of the proposed scheme. Based on all experiments and analyses, we can conclude that this scheme is secure, efficient, robust, reliable, and can be directly applied successfully for many practical security applications in insecure network channels such as the Internet

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A novel image encryption scheme based on multi-directional diffusion technique and integrated chaotic map

Neural Computing and Applications ◽

10.1007/s00521-021-06077-5 ◽

2021 ◽

Author(s):

Milad Riyahi ◽

Marjan Kuchaki Rafsanjani ◽

Rouzbeh Motevalli

Keyword(s):

Image Encryption ◽

Chaotic Map ◽

Encryption Scheme ◽

Directional Diffusion ◽

Diffusion Technique

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Non-Linear Hopped Chaos Parameters-Based Image Encryption Algorithm Using Histogram Equalization

Entropy ◽

10.3390/e23050535 ◽

2021 ◽

Vol 23 (5) ◽

pp. 535

Author(s):

Karim H. Moussa ◽

Ahmed I. El Naggary ◽

Heba G. Mohamed

Keyword(s):

Image Encryption ◽

Initial Conditions ◽

Signal To Noise Ratio ◽

Chaotic Map ◽

Histogram Equalization ◽

Encryption Algorithm ◽

Multimedia Contents ◽

Encryption Schemes ◽

Change Intensity ◽

Increasing Demand

Multimedia wireless communications have rapidly developed over the years. Accordingly, an increasing demand for more secured media transmission is required to protect multimedia contents. Image encryption schemes have been proposed over the years, but the most secure and reliable schemes are those based on chaotic maps, due to the intrinsic features in such kinds of multimedia contents regarding the pixels’ high correlation and data handling capabilities. The novel proposed encryption algorithm introduced in this article is based on a 3D hopping chaotic map instead of fixed chaotic logistic maps. The non-linearity behavior of the proposed algorithm, in terms of both position permutation and value transformation, results in a more secured encryption algorithm due to its non-convergence, non-periodicity, and sensitivity to the applied initial conditions. Several statistical and analytical tests such as entropy, correlation, key sensitivity, key space, peak signal-to-noise ratio, noise attacks, number of pixels changing rate (NPCR), unified average change intensity randomness (UACI), and others tests were applied to measure the strength of the proposed encryption scheme. The obtained results prove that the proposed scheme is very robust against different cryptography attacks compared to similar encryption schemes.

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An image encryption scheme based on an optimal chaotic map derived by multi-objective optimization using ABC algorithm

Nonlinear Dynamics ◽

10.1007/s11071-021-06675-x ◽

2021 ◽

Author(s):

Abdurrahim Toktas ◽

Uğur Erkan ◽

Deniz Ustun

Keyword(s):

Image Encryption ◽

Chaotic Map ◽

Encryption Scheme ◽

Multi Objective Optimization ◽

Abc Algorithm ◽

Multi Objective

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A Lightweight Chaos-Based Medical Image Encryption Scheme Using Random Shuffling and XOR Operations

Wireless Personal Communications ◽

10.1007/s11277-021-08584-z ◽

2021 ◽

Author(s):

Fawad Masood ◽

Maha Driss ◽

Wadii Boulila ◽

Jawad Ahmad ◽

Sadaqat Ur Rehman ◽

...

Keyword(s):

Image Encryption ◽

Storage Systems ◽

Medical Images ◽

Chaotic Map ◽

Communication Channels ◽

Security Level ◽

Sensitive Information ◽

X Rays ◽

Brain Images ◽

Contrast Analysis

AbstractMedical images possess significant importance in diagnostics when it comes to healthcare systems. These images contain confidential and sensitive information such as patients’ X-rays, ultrasounds, computed tomography scans, brain images, and magnetic resonance imaging. However, the low security of communication channels and the loopholes in storage systems of hospitals or medical centres put these images at risk of being accessed by unauthorized users who illegally exploit them for non-diagnostic purposes. In addition to improving the security of communication channels and storage systems, image encryption is a popular strategy adopted to ensure the safety of medical images against unauthorized access. In this work, we propose a lightweight cryptosystem based on Henon chaotic map, Brownian motion, and Chen’s chaotic system to encrypt medical images with elevated security. The efficiency of the proposed system is proved in terms of histogram analysis, adjacent pixels correlation analysis, contrast analysis, homogeneity analysis, energy analysis, NIST analysis, mean square error, information entropy, number of pixels changing rate, unified average changing intensity, peak to signal noise ratio and time complexity. The experimental results show that the proposed cryptosystem is a lightweight approach that can achieve the desired security level for encrypting confidential image-based patients’ information.

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