具有压缩鬼影成像的光学加密

Vicente Durán, P. Clemente, V. Torres‐Company, E. Tajahuerce, J. Lancis, P. Andrés
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引用次数: 12

摘要

鬼影成像(Ghost imaging, GI)是一种将物体的光学信息与光源强度波动的相关性进行编码的新技术。计算GI (CGI)是使用单个桶检测器的标准过程的一种变体。最近,我们提出使用CGI对对象信息进行加密并传输给远程方[1]。光加密方案具有可压缩性和对窃听攻击的鲁棒性。重建算法提供的图像质量相对较低,需要较高的采集时间。克服这些限制的一种方法是将CGI与压缩采样(CS)相结合,压缩采样是一种先进的信号处理理论,它利用了大多数常见图像结构中的冗余。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical encryption with compressive ghost imaging
Ghost imaging (GI) is a novel technique where the optical information of an object is encoded in the correlation of the intensity fluctuations of a light source. Computational GI (CGI) is a variant of the standard procedure that uses a single bucket detector. Recently, we proposed to use CGI to encrypt and transmit the object information to a remote party [1]. The optical encryption scheme shows compressibility and robustness to eavesdropping attacks. The reconstruction algorithm provides a relative low quality images and requires high acquisitions times. A procedure to overcome such limitations is to combine CGI with compressive sampling (CS), an advanced signal processing theory that exploits the redundancy in the structure of most usual images.
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