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A New Quantum Gray-Scale Image Encoding Scheme
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作者 mosayeb naseri mona abdolmaleky +3 位作者 fariborz parandin negin fatahi ahmed farouk reza nazari 《Communications in Theoretical Physics》 SCIE CAS CSCD 2018年第2期215-226,共12页
In this paper, a new quantum images encoding scheme is proposed. The proposed scheme mainly consists of four different encoding algorithms. The idea behind of the scheme is a binary key generated randomly for each pix... In this paper, a new quantum images encoding scheme is proposed. The proposed scheme mainly consists of four different encoding algorithms. The idea behind of the scheme is a binary key generated randomly for each pixel of the original image. Afterwards, the employed encoding algorithm is selected corresponding to the qubit pair of the generated randomized binary key. The security analysis of the proposed scheme proved its enhancement through both randomization of the generated binary image key and altering the gray-scale value of the image pixels using the qubits of randomized binary key. The simulation of the proposed scheme assures that the final encoded image could not be recognized visually. Moreover, the histogram diagram of encoded image is flatter than the originM one. The Shannon entropies of the final encoded images are significantly higher than the original one, which indicates that the attacker can not gain any information about the encoded images. 展开更多
关键词 quantum image quantum encoding gray-scale image
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Robust general N User authentication scheme in a centralized quantum communication network via generalized G HZ states 被引量:4
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作者 ahmed farouk J. Batle +6 位作者 M. Elhoseny Mosayeb Naseri Muzaffar Lone Alex Fedorov Majid Alkhambashi Syed Hassan ahmed M. Abdel-Aty 《Frontiers of physics》 SCIE CSCD 2018年第2期13-30,共18页
Quantum communication provides an enormous advantage over its classical counterpart: security of communications based on the very principles of quantum mechanics. Researchers have proposed several approaches for user... Quantum communication provides an enormous advantage over its classical counterpart: security of communications based on the very principles of quantum mechanics. Researchers have proposed several approaches for user identity authentication via entanglement. Unfortunately, these protocols fail because an attacker can capture some of the particles in a transmitted sequence and send what is left to the receiver through a quantum channel. Subsequently, the attacker can restore some of the confidential messages, giving rise to the possibility of information leakage. Here we present a new robust General N user authentication protocol based on N-particle Greenberger-Horne-Zeilinger (GHZ) states, which makes eavesdropping detection more effective and secure, as compared to some current authentication protocols. The security analysis of our protocol for various kinds of attacks verifies that it is unconditionally secure, and that an attacker will not obtain any information about the transmitted key. Moreover, as the number of transferred key bits N becomes larger, while the number of users for transmitting the information is increased, the probability of effectively obtaining the transmitted authentication keys is reduced to zero. 展开更多
关键词 quantum communication quantum cryptography quantum authentication ENTANGLEMENT
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A New Quantum Watermarking Based on Quantum Wavelet Transforms 被引量:1
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作者 Shahrokh Heidari Mosayeb Naseri +3 位作者 Reza Gheibi Masoud Baghfalaki Mohammad Rasoul Pourarian ahmed farouk 《Communications in Theoretical Physics》 SCIE CAS CSCD 2017年第6期732-742,共11页
Quantum watermarking is a technique to embed specific information, usually the owner's identification,into quantum cover data such for copyright protection purposes. In this paper, a new scheme for quantum waterma... Quantum watermarking is a technique to embed specific information, usually the owner's identification,into quantum cover data such for copyright protection purposes. In this paper, a new scheme for quantum watermarking based on quantum wavelet transforms is proposed which includes scrambling, embedding and extracting procedures. The invisibility and robustness performances of the proposed watermarking method is confirmed by simulation technique.The invisibility of the scheme is examined by the peak-signal-to-noise ratio(PSNR) and the histogram calculation.Furthermore the robustness of the scheme is analyzed by the Bit Error Rate(BER) and the Correlation Two-Dimensional(Corr 2-D) calculation. The simulation results indicate that the proposed watermarking scheme indicate not only acceptable visual quality but also a good resistance against different types of attack. 展开更多
关键词 quantum watermarking quantum wavelet transforms INVISIBILITY ROBUSTNESS
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