Cryptompress: A Symmetric Cryptography algorithm to deny Bruteforce Attack
Cryptography and Security
2016-04-08 v1
Abstract
Cryptompress, a new 128-bit (initial) private-key cryptography algorithm is proposed. It uses a block size of at least 30 bits and increments prior key size to additional 32 bits on each unsuccessful attempt of any means, including bruteforcing, further changing a specific portion of the cyphertext using the reformed Feistel network. Encryption process results from a proposed compression sequence developed using lookup table and shift operations followed by key generation. Eventually, four matrixes named add-sub matrix, reduced matrix, sequence matrix and term matrix are obtained which ultimately forms a cyphertext.
Cite
@article{arxiv.1604.02128,
title = {Cryptompress: A Symmetric Cryptography algorithm to deny Bruteforce Attack},
author = {Vivek Kumar and Sandeep Sharma},
journal= {arXiv preprint arXiv:1604.02128},
year = {2016}
}
Comments
Submitted for publication in IEEE Transaction on IT