基于二维正交压缩传感光学扫描全息技术的无级联、无串扰多图像加密。

Luozhi Zhang;Qionghua Wang;Zhan Yu;Jinxi Li;Xing Bai;Xin Zhou;Yuanyuan Wu
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引用次数: 0

摘要

我们提出了一种基于光学扫描全息和二维正交压缩传感的无级联、无串扰的多图像加密方法。这种方法无需机械扫描就能同时记录和加密多张明文图像,同时还能独立检索每张图像,且图像质量优异,无串扰。有两个特点会带来更高的安全性和隐私性。其一,通过在瞳孔处使用一系列预先设计好的结构模式作为加密密钥,可以实现多次采样,最终获得全息密文。这些图案是用广义正交矩阵处理过的测量矩阵生成的。因此,我们可以在记录之前完成图像的区分,从而既不需要对待处理图像进行预处理,也不需要抑制解密图像中的失焦噪声。另一方面,非级联结构确保了不同明文不会共享子密钥。同时,与一维正交压缩传感技术相比,二维正交压缩传感技术使所提出的方法可以同步处理更复杂的多幅图像,同时获得更高质量的解密图像和更大的加密能力。此外,我们还发现了一维和二维正交压缩传感之间转换的规律性,这对制造实用的多图像密码系统或单像素成像设备可能具有指导意义。此外,还提出了一种名为 "合成瞳孔编码 "的更普遍的方法或概念。它可以提供一种有效的方法,将多种加密方法组合成一种非级联加密方法。我们的方法具有非线性,在多图像非对称或公钥密码系统以及多用户多路复用方面也大有可为。
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Non-Cascaded and Crosstalk-Free Multi-Image Encryption Based on Optical Scanning Holography Using 2D Orthogonal Compressive Sensing
We propose a non-cascaded and crosstalk-free multi-image encryption method based on optical scanning holography and 2D orthogonal compressive sensing. This approach enables the simultaneous recording and encryption of multiple plaintext images without mechanical scanning, while allows for independent retrieval of each image with exceptional quality and no crosstalk. Two features would bring about more substantial security and privacy. The one is that, by employing a sequence of pre-designed structural patterns as encryption keys at the pupil, multiple samplings can be achieved and ultimately the holographic cyphertext can be obtained. These patterns are generated using a measurement matrix processed with the generalized orthogonal one. As a result, one can accomplish the differentiation of images prior to the recording and thus neither need to pretreat the pending images nor to suppress the out-of-focus noise in the decrypted image. The other one is that, the non-cascaded architecture ensures that different plaintexts do not share sub-keys. Meanwhile, compared to 1D orthogonal compressive sensing, the 2D counterpart makes the proposed method to synchronously deal with multiple images of more complexity, while acquire significantly high-quality decrypted images and far greater encryption capacity. Further, the regularities of conversion between 1D and 2D orthogonal compressive sensing are identified, which may be instructive when to manufacture a practical multi-image cryptosystem or a single-pixel imaging equipment. A more general method or concept named synthesis pupil encoding is advanced. It may provide an effective way to combine multiple encryption methods together into a non-cascaded one. Our method possesses nonlinearity and it is also promising in multi-image asymmetric or public key cryptosystem as well as multi-user multiplexing.
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