2D Logistic-Modulated-Sine-Coupling-Logistic Chaotic Map for Image Encryption

Zhu, Hegui; Zhao, Yiran; Song, Yujia

doi:10.1109/access.2019.2893538

Cited by 164 publications

(101 citation statements)

References 41 publications

(62 reference statements)

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“…The circle symbol in Equation 4represents the composition of two functions. Compared to the 1D delay and linearly coupled logistic chaotic map (DLCL) [15] and a two-dimensional logistic-modulated sine-coupling logistic chaotic map (LSMCL) [1], the structure of TDSCL produces better chaotic performance. In the following section, we use the trajectory, Lyapunov exponent, and permutation entropy (PE) to analyze the characteristics of chaotic maps.…”

Section: The Structure Of Chaotic Mapsmentioning

confidence: 99%

“…where C(i, j) and C'(i, j) are the cipher image generated by the original key and the changed key in the key sensitivity test, respectively. The ideal values of NPCR and UACI are 99.6094% and 33.4635% for an 8-bit grey scale image, respectively [1]. Table 2 lists the simulation results.…”

Section: Key Sensitivity Testmentioning

confidence: 99%

“…Their secure transmission plays a vital role in personal and military privacy. In recent years, many chaotic image encryption algorithms have been proposed [1][2][3][4][5][6][7][8][9][10] due to the excellent properties of chaotic maps, such as initial value sensitivity and intrinsic randomness.…”

Section: Introductionmentioning

confidence: 99%

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Image Encryption Algorithm Based on Tent Delay-Sine Cascade with Logistic Map

Zhang

Ding

2020

Symmetry

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We propose a new chaotic map combined with delay and cascade, called tent delay-sine cascade with logistic map (TDSCL). Compared with the original one-dimensional simple map, the proposed map has increased initial value sensitivity and internal randomness and a larger chaotic parameter interval. The chaotic sequence generated by TDSCL has pseudo-randomness and is suitable for image encryption. Based on this chaotic map, we propose an image encryption algorithm with a symmetric structure, which can achieve confusion and diffusion at the same time. Simulation results show that after encryption using the proposed algorithm, the entropy of the cipher is extremely close to the ideal value of eight, and the correlation coefficients between the pixels are lower than 0.01, thus the algorithm can resist statistical attacks. Moreover, the number of pixel change rate (NPCR) and the unified average changing intensity (UACI) of the proposed algorithm are very close to the ideal value, which indicates that it can efficiently resist chosen-plain text attack.

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Section: The Structure Of Chaotic Mapsmentioning

confidence: 99%

Section: Key Sensitivity Testmentioning

confidence: 99%

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Image Encryption Algorithm Based on Tent Delay-Sine Cascade with Logistic Map

Zhang

Ding

2020

Symmetry

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“…When the parameter r do not belong to this range, it cannot be considered to have a chaotic behavior and non-uniform distribution of the output chaotic sequences that affected the distributions of encrypted image data and the performance of encryption system. The Lyapunov exponent (LE) represents a quantitative measure of the sensitivity of the control parameters of chaotic maps [20]. Mathematically it can be represented as:…”

Section: Bifurcation Diagrammentioning

confidence: 99%

“…Chaotic maps with weak chaotic behaviors can make the cryptosystems vulnerable to attacks and can be easily broken. In recent years several works available in the literature have suggested to overcome the disadvantages of these chaotic maps by improving the properties of chaotic distribution for better performance and effectiveness of image encryption algorithms [19,20]. Hua et al [21] suggested a sine chaotic model (SCM) to improve the chaos complexity of existing chaotic range of (1-D) chaotic maps.…”

Section: Introductionmentioning

confidence: 99%

A Tweakable Image Encryption Algorithm Using an Improved Logistic Chaotic Map

Herbadji¹,

Derouiche²,

Belmeguenaï³

et al. 2019

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This paper aims to improves the chaotic behavior of classical logistic chaotic map for image encryption. First, this classical technique was enhanced, and the effectiveness of the improved technique was verified by the bifurcation diagram and Lyapunov exponent, in comparison to the classical technique. On this basis, an efficient tweakable image encryption algorithm was proposed to protect the security of digital image transmission. The proposed algorithm adopts a confusion-diffusion architecture. With the aid of the tweak, each original image is encrypted as multiple different images using the same secret key-stream. The experimental results prove that the proposed algorithm, despite its simplicity, can withstand several types of attacks through image encryption. The research results shed new light on the data security in the transmission of digital images.

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Employee Resignation Prediction Model Based on Machine Learning

Dai

Zhu

2020

Advances in Intelligent Systems and Computing

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2D Logistic-Modulated-Sine-Coupling-Logistic Chaotic Map for Image Encryption

Cited by 164 publications

References 41 publications

Image Encryption Algorithm Based on Tent Delay-Sine Cascade with Logistic Map

Image Encryption Algorithm Based on Tent Delay-Sine Cascade with Logistic Map

A Tweakable Image Encryption Algorithm Using an Improved Logistic Chaotic Map

Employee Resignation Prediction Model Based on Machine Learning

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