Remote-Sensing Image Encryption Algorithm Using the Advanced Encryption Standard

Zhang, Xiaoqiang; Wang, Xuesong

doi:10.3390/app8091540

Cited by 19 publications

(10 citation statements)

References 22 publications

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“…Huang et al [11] suggested a simple chaotic for encryption of color image which is relied on plaintext related permutation and diffusion for more safty and efficacy. Zhang and Wang [12] introduced the AES remote sensing image encryption algorithm. At first, for time reduction of encryption, the source gathers the values of 16 pixels altogether to form big integers; secondly, the source ciphers big integers by AES and chaotic map; lastly, the ciphered image is resulted from the encrypted big integers.…”

Section: Related Workmentioning

confidence: 99%

Extended of TEA: A 256 bits block cipher algorithm for image encryption

Shimal

Helal

Hashim

2021

IJECE

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<p>This paper introduces an effective image encryption approach that merges a chaotic map and polynomial with a block cipher. According to this scheme, there are three levels of encryption. In the first level, pixel positions of the image are scuffled into blocks randomly based on a chaotic map. In the second level, the polynomials are constructed by taking N unused pixels from the permuted blocks as polynomial coefficients. Finally, the third level a proposed secret-key block cipher called extended of tiny encryption algorithm (ETEA) is used. The proposed ETEA algorithm increased the block size from 64-bit to 256-bit by using F-function in type three Feistel network design. The key schedule generation is very straightforward through admixture the entire major subjects in the identical manner for every round. The proposed ETEA algorithm is word-oriented, where wholly internal operations are executed on words of 32 bits. So, it is possible to efficiently implement the proposed algorithm on smart cards. The results of the experimental demonstration that the proposed encryption algorithm for all methods are efficient and have high security features through statistical analysis using histograms, correlation, entropy, randomness tests, and the avalanche effect.</p>

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Section: Related Workmentioning

confidence: 99%

Extended of TEA: A 256 bits block cipher algorithm for image encryption

Shimal

Helal

Hashim

2021

IJECE

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“…[44] Ciphertext image − 0.0039 − 0.0196 0.0027 Ref. [55] Ciphertext image − 0.0047 0.0025 0.0014 Ref. [56] Ciphertext image 0.0019 0.0038 − 0.0019…”

Section: Classical Types Of Attacksmentioning

confidence: 99%

A Novel Multiband Remote-Sensing Image Encryption Algorithm Based on Dual-Channel Key Transmission Model

Liu

et al. 2021

Security and Communication Networks

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With the rapid development of remote sensing technology, satellite remote sensing images have been involved in many areas of people’s lives. Remote sensing images contain military secrets, land profiles, and other sensitive data, so it is urgent to encrypt remote sensing images. This paper proposes a dual-channel key transmission model. The plaintext related key is embedded into the ciphertext image through bit-level key hiding transmission strategy, which enhanced the ability of ciphertext image to resist known-plaintext attack and chosen plaintext attack. In addition, a multiband remote sensing image encryption algorithm based on Boolean cross-scrambling and semi-tensor product diffusion is designed. Firstly, the pixel positions of each band of the remote sensing image are disturbed. Then, the random sequence generated by the four-dimensional chaotic system is processed and deformed to obtain a Boolean matrix. Based on the generated Boolean matrix and certain rules, the cross-confusion between the bands is carried out. Finally, the semi-tensor product operation is used in the diffusion process. Simulation results and experimental analysis show that the proposed algorithm obtains a larger key space and has stronger antiattack ability than other remote sensing image encryption algorithms. It can meet the security transmission of multiband remote sensing image in open space.

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“…Differential attack [32] is an efficient method to use pairs of plain-images related by a constant difference and compare the difference of the corresponding cipher-image for statistical patterns in their distribution. Usually attackers make a tiny change in the plain-image and use the encryption algorithm to encrypt the image before and after any changes.…”

Section: Differential Attackmentioning

confidence: 99%

A Remote-Sensing Image Encryption Scheme Using DNA Bases Probability and Two-Dimensional Logistic Map

Liu

Zhao

Huang³

2019

IEEE Access

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Remote-sensing images contain lots of visual information about transportation systems, geomorphic conditions, and communal facilities. The secure storage and transmission of remote-sensing images are of great significance. This paper proposes a novel image encryption scheme-based DNA bases probability and applies it to remote-sensing images for data protection. First, the plain-image is randomly encoded in DNA rules and its result participates in DNA addition with DNA mask generated by 2-D logistic map. Second, the cryptosystem executes 2-D logistic map again with DNA bases probability against differential attacks. Third, the pixel-level rearrangement and the DNA base-level rearrangement are, respectively, implemented in order of chaos sequences for permutation and diffusion. The cipher-image has a uniform distribution, low coefficients, and ideal entropy. The cryptosystem has acceptable encryption speed (speed = 0.651308Mbit/s) and high sensitivity to the plain-image and the security key. The experimental results show that the proposed algorithm can resist various existing attack schemes against remote-sensing images. INDEX TERMS Remote-sensing images, DNA bases probability, two-dimensional logistic map, base-level rearrangement.

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Remote-Sensing Image Encryption Algorithm Using the Advanced Encryption Standard

Cited by 19 publications

References 22 publications

Extended of TEA: A 256 bits block cipher algorithm for image encryption

Extended of TEA: A 256 bits block cipher algorithm for image encryption

A Novel Multiband Remote-Sensing Image Encryption Algorithm Based on Dual-Channel Key Transmission Model

A Remote-Sensing Image Encryption Scheme Using DNA Bases Probability and Two-Dimensional Logistic Map

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