peer reviewedWe previously introduced the concept of “set-complexity”, based on a context-dependent measure of information, and used this concept to describe the complexity of gene interaction networks. In the previous paper in this series we analyzed the set-complexity of binary graphs. Here we extend this analysis to graphs with multi-colored edges that more closely match biological structures like the gene interaction networks. All highly complex graphs by this measure exhibit a modular structure. A principal result of this work is that for the most complex graphs of a given size the number of edge colors is equal to the number of “modules” of the graph. Complete multipartite graphs (CMGs) are defined and analyzed, and the relation betwe...
A vast variety of biological, social, and economical networks shows topologies drastically differing...
This book deals with the analysis of the structure of complex networks by combining results from gra...
Throughout the years, measuring the complexity of networks and graphs has been of great interest to ...
peer reviewedWe describe some new conceptual tools for the rigorous, mathematical description of the...
BACKGROUND: Networks or graphs play an important role in the biological sciences. Protein interactio...
A great deal of work in recent years has been devoted to the topic of \complexity, ' its measur...
This paper aims to investigate information-theoretic network complexity measures which have already ...
AbstractWe study parallel complexity of signed graphs motivated by the highly complex genetic recomb...
Information-theoretic-based measures have been useful in quantifying network complexity. Here we bri...
Complex networks can be understood as graphs whose connectivity properties deviate from those of reg...
AbstractLarge complex networks occur in many applications of computer science. The complex network z...
Context dependence is central to the description of complexity. Keying on the pairwise definition of...
<div><p>Genotype-to-phenotype maps exhibit complexity. This genetic complexity is mentioned frequent...
Afin de mieux comprendre le fonctionnement d’un système biologique, il est nécessaire d’étudier les ...
International audienceThe Graph Motif problem was introduced in 2006 in the context of biological ne...
A vast variety of biological, social, and economical networks shows topologies drastically differing...
This book deals with the analysis of the structure of complex networks by combining results from gra...
Throughout the years, measuring the complexity of networks and graphs has been of great interest to ...
peer reviewedWe describe some new conceptual tools for the rigorous, mathematical description of the...
BACKGROUND: Networks or graphs play an important role in the biological sciences. Protein interactio...
A great deal of work in recent years has been devoted to the topic of \complexity, ' its measur...
This paper aims to investigate information-theoretic network complexity measures which have already ...
AbstractWe study parallel complexity of signed graphs motivated by the highly complex genetic recomb...
Information-theoretic-based measures have been useful in quantifying network complexity. Here we bri...
Complex networks can be understood as graphs whose connectivity properties deviate from those of reg...
AbstractLarge complex networks occur in many applications of computer science. The complex network z...
Context dependence is central to the description of complexity. Keying on the pairwise definition of...
<div><p>Genotype-to-phenotype maps exhibit complexity. This genetic complexity is mentioned frequent...
Afin de mieux comprendre le fonctionnement d’un système biologique, il est nécessaire d’étudier les ...
International audienceThe Graph Motif problem was introduced in 2006 in the context of biological ne...
A vast variety of biological, social, and economical networks shows topologies drastically differing...
This book deals with the analysis of the structure of complex networks by combining results from gra...
Throughout the years, measuring the complexity of networks and graphs has been of great interest to ...