Yann Frauel scite author profile

Several attacks are proposed against the double random phase encryption scheme. These attacks are demonstrated on computer-generated ciphered images. The scheme is shown to be resistant against brute force attacks but susceptible to chosen and known plaintext attacks. In particular, we describe a technique to recover the exact keys with only two known plain images. We compare this technique to other attacks proposed in the literature.

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Compression of digital holograms for three-dimensional object reconstruction and recognition

Naughton¹,

Frauel²,

Javidi³

et al. 2002

Appl. Opt.

217

180

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A robust Graph Transformation Matching for non-rigid registration

Aguilar

Frauel

Escolano

et al. 2009

Image and Vision Computing

154

114

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Real-time three-dimensional object reconstruction by use of a phase-encoded digital hologram

et al. 2002

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A three-dimensional (3D) object reconstruction technique that uses only phase information of a phaseshifting digital hologram and a phase-only spatial-light modulator is proposed. It is well known that a digital hologram can store both amplitude and phase information of an optical electric field and can reconstruct the original 3D object in a computer. We demonstrate that it is possible to reconstruct optically 3D objects using only phase information of the optical field calculated from phase-shifting digital holograms. The use of phase-only information enables us to reduce the amount of data in the digital hologram and reconstruct optically the 3D objects using a liquid-crystal spatial light modulator without optical power loss. Numerical evaluation of the reconstructed 3D object is presented.

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Yann Frauel

Resistance of the double random phase encryption against various attacks

Compression of digital holograms for three-dimensional object reconstruction and recognition

A robust Graph Transformation Matching for non-rigid registration

Real-time three-dimensional object reconstruction by use of a phase-encoded digital hologram

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