Optical multiple-image authentication based on computational ghost imaging and hybrid non-convex second-order total variation

Ghost imaging technology has a great application potential in optical security because of its non-local characteristics. In this paper, on the basis of computational ghost imaging, an optical authentication scheme is proposed that utilizes the correspondence imaging technique for the preliminary reconstruction of the object image, and then authenticates the image by a nonlinear correlation algorithm. Different from the previous optical authentication schemes that usually adopted random selection of measurements, this authentication method consciously selects the bucket detector measurement values with large fluctuation and can achieve authentication using ultra-low data volumes less than 1% of the Nyquist limit. In brief, this scheme is easy to implement and has a simpler algorithm and higher stability, which is a tremendous advantage in practical optical authentication systems. The simulation and physical experimental results demonstrate the feasibility of the scheme.

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Optical multiple-image authentication based on computational ghost imaging and hybrid non-convex second-order total variation

Cited by 6 publications

References 49 publications

Image encryption and authentication scheme based on computational ghost imaging and lifting wavelet transform

Image encryption and authentication scheme based on computational ghost imaging and lifting wavelet transform

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Optical authentication method based on correspondence ghost imaging

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