In this paper, we analyze the evolution of a small-world network and its subsequent transformation to a
random network using the idea of link rewiring under the well-known Watts-Strogatz model for complex
networks. Every link u-v in the regular network is considered for rewiring with a certain probability and if
chosen for rewiring, the link u-v is removed from the network and the node u is connected to a randomly
chosen node w (other than nodes u and v). Our objective in this paper is to analyze the distribution of the
maximal clique size per node by varying the probability of link rewiring and the degree per node (number
of links incident on a node) in the initial regular network. For a given probability of rewiring and initial
number of links per node, we observe the distribution of the maximal clique per node to follow a Poisson
distribution. We also observe the maximal clique size per node in the small-world network to be very close
to that of the average value and close to that of the maximal clique size in a regular network. There is no
appreciable decrease in the maximal clique size per node when the network transforms from a regular
network to a small-world network. On the other hand, when the network transforms from a small-world
network to a random network, the average maximal clique size value decreases significantly.
%0 Journal Article
%1 noauthororeditor
%A Meghanathan, Natarajan
%D 2015
%J International Journal on Foundations of Computer Science & Technology (IJFCST)
%K Clique Complex Distribution Maximal Model Networks Poisson Size Small-World Watts-Strogatz
%N 3
%P 12
%R 10.5121/ijfcst.2015.5301
%T DISTRIBUTION OF MAXIMAL CLIQUE SIZE UNDER
THE WATTS-STROGATZ MODEL OF EVOLUTION OF
COMPLEX NETWORKS
%U https://wireilla.com/papers/ijfcst/V5N3/5315ijfcst01.pdf
%V 5
%X In this paper, we analyze the evolution of a small-world network and its subsequent transformation to a
random network using the idea of link rewiring under the well-known Watts-Strogatz model for complex
networks. Every link u-v in the regular network is considered for rewiring with a certain probability and if
chosen for rewiring, the link u-v is removed from the network and the node u is connected to a randomly
chosen node w (other than nodes u and v). Our objective in this paper is to analyze the distribution of the
maximal clique size per node by varying the probability of link rewiring and the degree per node (number
of links incident on a node) in the initial regular network. For a given probability of rewiring and initial
number of links per node, we observe the distribution of the maximal clique per node to follow a Poisson
distribution. We also observe the maximal clique size per node in the small-world network to be very close
to that of the average value and close to that of the maximal clique size in a regular network. There is no
appreciable decrease in the maximal clique size per node when the network transforms from a regular
network to a small-world network. On the other hand, when the network transforms from a small-world
network to a random network, the average maximal clique size value decreases significantly.
@article{noauthororeditor,
abstract = {In this paper, we analyze the evolution of a small-world network and its subsequent transformation to a
random network using the idea of link rewiring under the well-known Watts-Strogatz model for complex
networks. Every link u-v in the regular network is considered for rewiring with a certain probability and if
chosen for rewiring, the link u-v is removed from the network and the node u is connected to a randomly
chosen node w (other than nodes u and v). Our objective in this paper is to analyze the distribution of the
maximal clique size per node by varying the probability of link rewiring and the degree per node (number
of links incident on a node) in the initial regular network. For a given probability of rewiring and initial
number of links per node, we observe the distribution of the maximal clique per node to follow a Poisson
distribution. We also observe the maximal clique size per node in the small-world network to be very close
to that of the average value and close to that of the maximal clique size in a regular network. There is no
appreciable decrease in the maximal clique size per node when the network transforms from a regular
network to a small-world network. On the other hand, when the network transforms from a small-world
network to a random network, the average maximal clique size value decreases significantly. },
added-at = {2023-08-09T15:31:10.000+0200},
author = {Meghanathan, Natarajan},
biburl = {https://www.bibsonomy.org/bibtex/2f7089f43f18bc4841df9c9138e1766d5/devino},
doi = {10.5121/ijfcst.2015.5301},
interhash = {412695fd3f2bc79b43310dd5f3fbdc50},
intrahash = {f7089f43f18bc4841df9c9138e1766d5},
issn = {ISSN : 1839-7662},
journal = {International Journal on Foundations of Computer Science & Technology (IJFCST)},
keywords = {Clique Complex Distribution Maximal Model Networks Poisson Size Small-World Watts-Strogatz},
month = {2015},
number = 3,
pages = 12,
timestamp = {2023-08-09T15:31:10.000+0200},
title = {DISTRIBUTION OF MAXIMAL CLIQUE SIZE UNDER
THE WATTS-STROGATZ MODEL OF EVOLUTION OF
COMPLEX NETWORKS},
url = {https://wireilla.com/papers/ijfcst/V5N3/5315ijfcst01.pdf},
volume = 5,
year = 2015
}