论文信息 - Optical encryption by double-random phase encoding in the fractional Fourier domain.

Optical encryption by double-random phase encoding in the fractional Fourier domain.

We propose an optical architecture that encodes a primary image to stationary white noise by using two statistically independent random phase codes. The encoding is done in the fractional Fourier domain. The optical distribution in any two planes of a quadratic phase system (QPS) are related by fractional Fourier transform of the appropriately scaled distribution in the two input planes. Thus a QPS offers a continuum of planes in which encoding can be done. The six parameters that characterize the QPS in addition to the random phase codes form the key to the encrypted image. The proposed method has an enhanced security value compared with earlier methods. Experimental results in support of the proposed idea are presented.

G. Unnikrishnan | J. Joseph | K. Singh | Kehar Singh

[1] B Javidi,et al. Optical image encryption based on input plane and Fourier plane random encoding. , 1995, Optics letters.

[2] J. Hua,et al. Extended fractional Fourier transforms , 1997 .

[3] G Unnikrishnan,et al. Optical encryption system that uses phase conjugation in a photorefractive crystal. , 1998, Applied optics.

[4] B Javidi,et al. Encrypted optical storage with angular multiplexing. , 1999, Applied optics.

[5] B Javidi,et al. Encrypted optical memory system using three-dimensional keys in the Fresnel domain. , 1999, Optics letters.

[6] B. Javidi,et al. Encrypted optical storage with wavelength-key and random phase codes. , 1999, Applied optics.