Multiple-image encryption by compressive holography

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Date
2012-03-01
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Optical Society of America
Abstract

We present multiple-image encryption (MIE) based on compressive holography. In the encryption, a holographic technique is employed to record multiple images simultaneously to form a hologram. The two-dimensional Fourier data of the hologram are then compressed by nonuniform sampling, which gives rise to compressive encryption. Decryption of individual images is cast into a minimization problem. The minimization retains the sparsity of recovered images in the wavelet basis. Meanwhile, total variation regularization is used to preserve edges in the reconstruction. Experiments have been conducted using holograms acquired by optical scanning holography as an example. Computer simulations of multiple images are subsequently demonstrated to illustrate the feasibility of the MIE scheme. (C) 2012 Optical Society of America

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Keywords
Optical-scanning holography, Volume holograms, Reconstruction
Citation
Hong Di, Kangfeng Zheng, Xin Zhang, Edmund Y. Lam, Taegeun Kim, You Seok Kim, Ting-Chung Poon, and Changhe Zhou, "Multiple-image encryption by compressive holography," Appl. Opt. 51, 1000-1009 (2012); doi: 10.1364/AO.51.001000