Deciphering a novel image cipher based on mixed transformed Logistic maps
Abstract
Since John von Neumann suggested utilizing Logistic map as a random number generator in 1947, a great number of encryption schemes based on Logistic map and/or its variants have been proposed. This paper re-evaluates the security of an image cipher based on transformed logistic maps and proves that the image cipher can be deciphered efficiently under two different conditions: 1) two pairs of known plain-images and the corresponding cipher-images with computational complexity of ; 2) two pairs of chosen plain-images and the corresponding cipher-images with computational complexity of , where is the number of pixels in the plain-image. In contrast, the required condition in the previous deciphering method is eighty-seven pairs of chosen plain-images and the corresponding cipher-images with computational complexity of . In addition, three other security flaws existing in most Logistic-map-based ciphers are also reported.
Keywords
Cite
@article{arxiv.1404.3600,
title = {Deciphering a novel image cipher based on mixed transformed Logistic maps},
author = {Yuansheng Liu and Hua Fan and Eric Yong Xie and Ge Cheng and Chengqing Li},
journal= {arXiv preprint arXiv:1404.3600},
year = {2016}
}
Comments
10 pages, 2 figures