scholarly journals Asymmetric optical cryptosystem for multiple images based on devil’s spiral Fresnel lens phase and random spiral transform in gyrator domain

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Hang Chen ◽  
Zhengjun Liu ◽  
Camel Tanougast ◽  
Walter Blondel
Keyword(s):  
Fresnel Lens ◽  
Random Permutation ◽  
Phase Mask ◽  
Multiple Images ◽  
Intermediate Data ◽  
Gyrator Transform ◽  
Input Plane ◽  
Intermediate Output ◽  
Transform Domains ◽  
Asymmetric Cryptosystem

AbstractAn asymmetric cryptosystem is presented for encrypting multiple images in gyrator transform domains. In the encryption approach, the devil’s spiral Fresnel lens variable pure phase mask is first designed for each image band to be encrypted by using devil’ mask, random spiral phase and Fresnel mask, respectively. Subsequently, a novel random devil’ spiral Fresnel transform in optical gyrator transform is implemented to achieved the intermediate output. Then, the intermediate data is divided into two masks by employing random modulus decomposition in the asymmetric process. Finally, a random permutation matrix is utilized to obtain the ciphertext of the intact algorithm. For the decryption approach, two divided masks (private key and ciphertext) need to be imported into the optical gyrator input plane simultaneously. Some numerical experiments are given to verify the effectiveness and capability of this asymmetric cryptosystem.

scholarly journals Security-enrichment of an asymmetric optical image encryption-based devil’s vortex Fresnel lens phase mask and lower upper decomposition with partial pivoting in gyrator transform domain

2021 ◽  
Author(s):  
Anshula ◽  
Hukum Singh
Keyword(s):  
Fresnel Lens ◽  
Phase Mask ◽  
Transform Domain ◽  
Complex Phase ◽  
Lower Upper ◽  
Partial Pivoting ◽  
Encryption And Decryption ◽  
The Matrix ◽  
Gyrator Transform ◽  
Optical Image Encryption

Abstract An asymmetric optical cryptosystem to encrypt images using devil’s vortex Fresnel lens (DVFLs) phase masks and lower upper decomposition with partial pivoting (LUDPP) is proposed in gyrator transform domain. The proposed cryptosystem utilizes DVFLs which are the complex phase masks designed using the combination of a phases of devil’s lens (DL), vortex lens(VL), and Fresnel lens (FL). LUDPP is an operation used to decompose the matrix and is utilized to supersede the phase-truncation (PT) task in the traditional phase-truncated Fourier transform (PTFT). Hence, the proposed method is immune to the attacks to which the PTFT-based cryptosystems are vulnerable. The cryptosystem is asymmetric as both the encryption and decryption processes are different along with different keys. The private keys generated during the encryption process are utilised in the decryption process to retrieve the original image. The encryption and decryption process can be realised with both the digital and the modified optical architecture. In order to show the strength and robustness of the proposed encryption, a conspire numerical simulation was performed.

Image Enhancement Using hybrid Fresnel Phase mask, hybrid mask and singular value decomposition in Affine and Fresnel Transform domain

2019 ◽  
Vol 13 ◽  
Author(s):  
Shivani Yadav ◽  
Hukum Singh
Keyword(s):  
Singular Value Decomposition ◽  
Propagation Distance ◽  
Singular Value ◽  
Phase Mask ◽  
Strength Analysis ◽  
Affine Transform ◽  
Plain Image ◽  
Fresnel Transform ◽  
Value Decomposition ◽  
Asymmetric Cryptosystem

Background: An asymmetric cryptanalysis is suggested in Affine and Fresnel transform using hybrid Fresnel Phase Mask (HFM), hybrid Mask (HM) and singular value decomposition (SVD) to deliver additional security to the scheme. The usage of Affine transform (AT) provides randomness in the input plane which benefits in enlarging the key space and SVD gives the non-linearity in the process. Objective: In the FrT domain, usage of hybrid masks and AT in an asymmetric cryptosystem with SVD is to make encoded procedure difficult. Method: On the plain image we firstly apply affine transform and then convoluted it with HFM, in FrT domain with propagation distance Z1 and the obtained part is convoluted with HM in FrT with propagation distance Z2 and then lastly on the encoded image SVD is applied. Results: Validity of the suggested scheme have been confirmed by using MATLAB R2018a (9.4.0.813654). The capability of the recommended scheme has been tested by statistical simulations such as histogram, entropy and correlation coefficient. Noise attack analysis has also done so that the system becomes robust against attacks. Conclusion: Asymmetric cryptosystem is recommended using pixel scrambling technique i.e. affine transform which shuffles the pixels hence helps for security of the system. Usage of SVD in the algorithm is to make the system robust. Performance and strength analysis are carried out for scrutiny of the forte and feasibility of the algorithm.

Optical Watermarking Method Based on Hyper-Chaotic Phase Mask in Gyrator Transform Domain

2019 ◽  
Vol 39 (9) ◽  
pp. 0907001
Author(s):  
刘禹佳 Yujia Liu ◽  
姜肇国 Zhaoguo Jiang ◽  
徐熙平 Xiping Xu ◽  
张福琦 Fuqi Zhang ◽  
徐嘉鸿 Jiahong Xu
Keyword(s):  
Phase Mask ◽  
Transform Domain ◽  
Gyrator Transform
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