19,145 research outputs found
Stream cipher based on quasigroup string transformations in
In this paper we design a stream cipher that uses the algebraic structure of
the multiplicative group \bbbz_p^* (where p is a big prime number used in
ElGamal algorithm), by defining a quasigroup of order and by doing
quasigroup string transformations. The cryptographical strength of the proposed
stream cipher is based on the fact that breaking it would be at least as hard
as solving systems of multivariate polynomial equations modulo big prime number
which is NP-hard problem and there are no known fast randomized or
deterministic algorithms for solving it. Unlikely the speed of known ciphers
that work in \bbbz_p^* for big prime numbers , the speed of this stream
cipher both in encryption and decryption phase is comparable with the fastest
symmetric-key stream ciphers.Comment: Small revisions and added reference
Comparison analysis of stream cipher algorithms for digital communication
The broadcast nature of radio communication such as in the HF (High Frequency) spectrum exposes the transmitted information to unauthorized third parties. Confidentiality is ensured by employing cipher system. For bulk transmission of data, stream ciphers are ideal choices over block ciphers due to faster implementation speed and not introducing error propagation. The stream cipher algorithms evaluated are based on the linear feedback shift register (LFSR) with nonlinear combining function. By using a common key length and worst case conditions, the strength of several stream cipher algorithms are evaluated using statistical tests, correlation attack, linear complexity profile and nonstandard test. The best algorithm is the one that exceeds all of the tests
Modified MASK Algorithm for Image Encryption
AbstractAES a symmetric block cipher is suitable for high speed application. The throughput as one of the bottleneck for huge data size such as image. Another symmetric block cipher MASK, a matrix based encryption technique, also suitable for high speed application with speed eight times that of AES. The proposed work discuses about AES and MASK algorithm and compares in terms of encryption speed, diffusion, confusion and statistical attacks. Based on the analysis a Modified MASK algorithm is designed to overcome the security weakness in MASK algorithm. A hardware implementation of Modified MASK algorithm is done and validated
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