@inproceedings{ff5b3fd57ec4495ebc2581c3e0796df1,
title = "The robustness and mutual information entropy of random modular Boolean networks",
abstract = "Random Boolean networks have been proposed as a basic model of genetic regulatory networks for more than four decades. Attractors have been considered as the best way to represent the long-term behaviors of random Boolean networks. Most studies on attractors are made with random topologies. However, the real regulatory networks have been found to be modular or more complex topologies. In this work, we extend classical robustness and entropy analysis of random Boolean networks to random modular Boolean networks. We firstly focus on the robustness of the attractor to perturbations with different parameters. Then, we investigate and calculate how the amount of information propagated between the nodes when on an attractor, as quantified by the average pairwise mutual information. The results can be used to study the capability of genetic information propagation of different types of genetic regulatory networks.",
keywords = "Boolean network, Dynamical analysis, Information entropy",
author = "Nan Zhao and Guo, \{Bing Hui\} and Meng, \{Fan Chao\}",
year = "2014",
doi = "10.4028/www.scientific.net/AMR.989-994.4417",
language = "英语",
isbn = "9783038351733",
series = "Advanced Materials Research",
publisher = "Trans Tech Publications Ltd",
pages = "4417--4420",
booktitle = "Materials Science, Computer and Information Technology",
address = "瑞士",
note = "4th International Conference on Materials Science and Information Technology, MSIT 2014 ; Conference date: 14-06-2014 Through 15-06-2014",
}