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Xiang Peng
Researcher at Shenzhen University
Publications - 274
Citations - 5842
Xiang Peng is an academic researcher from Shenzhen University. The author has contributed to research in topics: Encryption & Ciphertext. The author has an hindex of 31, co-authored 269 publications receiving 4802 citations. Previous affiliations of Xiang Peng include Chinese Ministry of Education & Tianjin University.
Papers
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Phase aberration compensation for digital holographic microscopy based on geometrical transformations
TL;DR: In this paper, a simple phase aberration compensation method based on geometrical transformations was proposed for single-shot quantitative phase imaging without complex numerical fitting procedures or prior knowledge of the specimen and system.
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Phase Retrieval for Digital Holographic Microscopy With Defocused Holograms
TL;DR: In this article, a new phase retrieval technique in digital holographic microscopy (DHM) with three defocused holograms is proposed, given the defocusing distance, the phase distributions of tested specimen can be reconstructed with a simple algebraic equation.
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Addressable discrete-line-scanning multiphoton microscopy based on a spatial light modulator
TL;DR: A novel addressable discrete-line-scanning multiphoton microscope with high lateral and axial resolutions based on a spatial light modulator that eliminates the cross talk and shortens scanning time and minimizes photodamage by concentrating scanning energy and dwell time on the area of interest.
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Information security system based on virtual-optics imaging methodology and public key infrastructure
TL;DR: The proposed model employs a hybrid architecture in which the previously published encryption algorithm based on virtual-optics imaging methodology (VOIM) can be used to encipher and decipher data while an asymmetric algorithm is applied for enciphering and deciphering the session key(s).
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A novel optical two-factor face authentication scheme
TL;DR: A new face biometric framework based on optical transformation is presented for authentication and security, which has studied the security strength characteristics such as collision resistant, sensitivity, and non-invertibility to satisfy the cancellability criteria.