Complex networks can be used to represent complex systems which originate in the real world. Here we study a transformation of these complex networks into simplicial complexes, where cliques represent the simplices of the complex. We extend the concept of node centrality to that of simplicial centrality and study several mathematical properties of degree, closeness, betweenness, eigenvector, Katz, and subgraph centrality for simplicial complexes. We study the degree distributions of these centralities at the different levels. We also compare and describe the differences between the centralities at the different levels. Using these centralities we study a method for detecting essential proteins in PPI networks of cells and explain the varyin...
Proteins are essential macromolecules of life that carry out most cellular processes. Since proteins...
In this thesis we propose some new approaches to the study of complex networks, and apply them to mu...
Proteins are essential macromolecules of life that carry out most cellular processes. Since proteins...
Complex networks can be used to represent complex systems which originate in the real world. Here we...
Motivation Protein–protein interactions (PPIs) are usually modeled as networks. These networks ha...
A strategy for zooming in and out the topological environment of a node in a complex network is deve...
In a recent work we introduced a measure of importance for groups of vertices in a complex network. ...
Redes complexas são utilizadas para representar sistemas complexos, compostos de elementos que inter...
Analysis of protein interaction is important for detailing the cell physiology and predicting diseas...
Complex networks can be understood as graphs whose connectivity properties deviate from those of reg...
Motivation: The structural interaction of proteins and their domains in networks is one of the most ...
This book deals with the analysis of the structure of complex networks by combining results from gra...
Biological networks are receiving increased attention due to their importance in understanding life ...
All beauty, richness and harmony in the emergent dynamics of a complex system largely depend on the ...
Proteins are essential macromolecules of life that carry out most cellular processes. Since proteins...
Proteins are essential macromolecules of life that carry out most cellular processes. Since proteins...
In this thesis we propose some new approaches to the study of complex networks, and apply them to mu...
Proteins are essential macromolecules of life that carry out most cellular processes. Since proteins...
Complex networks can be used to represent complex systems which originate in the real world. Here we...
Motivation Protein–protein interactions (PPIs) are usually modeled as networks. These networks ha...
A strategy for zooming in and out the topological environment of a node in a complex network is deve...
In a recent work we introduced a measure of importance for groups of vertices in a complex network. ...
Redes complexas são utilizadas para representar sistemas complexos, compostos de elementos que inter...
Analysis of protein interaction is important for detailing the cell physiology and predicting diseas...
Complex networks can be understood as graphs whose connectivity properties deviate from those of reg...
Motivation: The structural interaction of proteins and their domains in networks is one of the most ...
This book deals with the analysis of the structure of complex networks by combining results from gra...
Biological networks are receiving increased attention due to their importance in understanding life ...
All beauty, richness and harmony in the emergent dynamics of a complex system largely depend on the ...
Proteins are essential macromolecules of life that carry out most cellular processes. Since proteins...
Proteins are essential macromolecules of life that carry out most cellular processes. Since proteins...
In this thesis we propose some new approaches to the study of complex networks, and apply them to mu...
Proteins are essential macromolecules of life that carry out most cellular processes. Since proteins...