Biological Models of Security for Virus Propagation in Computer Networks
S. Goel, and S. Bush. ;Login;, 29 (6):
49-56(December 2004)
Abstract
This aricle discusses the similarity between the propagation of pathogens
(viruses and worms) on computer networks and the proliferation of
pathogens in cellular organisms (organisms with genetic material
contained within a membrane-encased nucleus). It introduces several
biological mechanisms which are used in these organisms to protect
against such pathogens and presents security models for networked
computers inspired by several biological paradigms, including genomics
(RNA interference), proteomics (pathway mapping), and physiology
(immune system). In addition, the study of epidemiological models
for disease control can inspire methods for controlling the spread
of pathogens across multiple nodes of a network. It also presents
results based on the authors� research in immune system modeling.
%0 Journal Article
%1 Goel2004a
%A Goel, Sanjay
%A Bush, Stephen F.
%D 2004
%J ;Login;
%K network security
%N 6
%P 49-56
%T Biological Models of Security for Virus Propagation in Computer Networks
%U http://www.research.ge.com/~bushsf
%V 29
%X This aricle discusses the similarity between the propagation of pathogens
(viruses and worms) on computer networks and the proliferation of
pathogens in cellular organisms (organisms with genetic material
contained within a membrane-encased nucleus). It introduces several
biological mechanisms which are used in these organisms to protect
against such pathogens and presents security models for networked
computers inspired by several biological paradigms, including genomics
(RNA interference), proteomics (pathway mapping), and physiology
(immune system). In addition, the study of epidemiological models
for disease control can inspire methods for controlling the spread
of pathogens across multiple nodes of a network. It also presents
results based on the authors� research in immune system modeling.
@article{Goel2004a,
abstract = {This aricle discusses the similarity between the propagation of pathogens
(viruses and worms) on computer networks and the proliferation of
pathogens in cellular organisms (organisms with genetic material
contained within a membrane-encased nucleus). It introduces several
biological mechanisms which are used in these organisms to protect
against such pathogens and presents security models for networked
computers inspired by several biological paradigms, including genomics
(RNA interference), proteomics (pathway mapping), and physiology
(immune system). In addition, the study of epidemiological models
for disease control can inspire methods for controlling the spread
of pathogens across multiple nodes of a network. It also presents
results based on the authors� research in immune system modeling.},
added-at = {2007-06-20T15:45:52.000+0200},
author = {Goel, Sanjay and Bush, Stephen F.},
biburl = {https://www.bibsonomy.org/bibtex/295428c450a5cd3b30170f282c769faa6/bushsf},
interhash = {30dfa62caee1b971c4377ad61def0094},
intrahash = {95428c450a5cd3b30170f282c769faa6},
journal = {;Login;},
keywords = {network security},
month = Dec,
number = 6,
owner = {200004965},
pages = {49-56},
timestamp = {2007-06-20T15:50:15.000+0200},
title = {Biological Models of Security for Virus Propagation in Computer Networks},
url = {http://www.research.ge.com/~bushsf},
volume = 29,
year = 2004
}