International audienceHere we present a new approach of multiplexing and simultaneous encoding of target images. Our approach can enhance the encryption level of a classical double random phase (DRP) encryption system by adding a supplementary security layer. The new approach can be divided into two security layers. The first layer is called the multiplexing level, which consists in using iterative Fourier transformations along with several encryption key images. These latter can be a set of biometric images. At the second layer, we use a classical DRP system. The two layers enable us to encode several target images (multiencryption) and to reduce, at the same time, the requested decoded information (transmitted or storage information)
International audienceWe report on a new algorithm to compress and encrypt simultaneously multiple i...
We present an alternative scheme to perform a multiple encrypting technique based on the use of a Jo...
A new image compression-encryption method based on compressive sensing and double random-phase encod...
International audienceHere we present a new approach of multiplexing and simultaneous encoding of ta...
International audienceHere we present a new approach of multiplexing and simultaneous encoding of ta...
International audienceNowadays, protecting information is a major issue in any transmission system, ...
A novel technique for multiplexing complex images is proposed in which each image may be demultiplex...
We propose an optical security technique for image encryption using triple random-phase encoding (TR...
In this paper we propose a new concept of combined image encryption using phase manipulation and SCA...
A novel technique for multiplexing complex images is proposed in which each image may be demultiplex...
In this paper, the optical image encryption scheme based on the double random phase encoding system ...
To enhance the security of double random phase encoding, a kind of amplitude scrambling operation is...
Image encryption technique has been actively researched and improved. Double Random Phase Encryption...
© 2013 IEEE. In this paper, a novel double image encryption scheme based on amplitude-phase enc...
In this study, we propose an innovative image encryption Techniques based on four different image en...
International audienceWe report on a new algorithm to compress and encrypt simultaneously multiple i...
We present an alternative scheme to perform a multiple encrypting technique based on the use of a Jo...
A new image compression-encryption method based on compressive sensing and double random-phase encod...
International audienceHere we present a new approach of multiplexing and simultaneous encoding of ta...
International audienceHere we present a new approach of multiplexing and simultaneous encoding of ta...
International audienceNowadays, protecting information is a major issue in any transmission system, ...
A novel technique for multiplexing complex images is proposed in which each image may be demultiplex...
We propose an optical security technique for image encryption using triple random-phase encoding (TR...
In this paper we propose a new concept of combined image encryption using phase manipulation and SCA...
A novel technique for multiplexing complex images is proposed in which each image may be demultiplex...
In this paper, the optical image encryption scheme based on the double random phase encoding system ...
To enhance the security of double random phase encoding, a kind of amplitude scrambling operation is...
Image encryption technique has been actively researched and improved. Double Random Phase Encryption...
© 2013 IEEE. In this paper, a novel double image encryption scheme based on amplitude-phase enc...
In this study, we propose an innovative image encryption Techniques based on four different image en...
International audienceWe report on a new algorithm to compress and encrypt simultaneously multiple i...
We present an alternative scheme to perform a multiple encrypting technique based on the use of a Jo...
A new image compression-encryption method based on compressive sensing and double random-phase encod...