Structure-dynamics interplay in complex networks: Difference between revisions

Revision as of 04:35, 10 June 2010

Goal: Analyze and explain relationships between network structure (degree, centrality, motifs, etc) and network dynamics.

We have two different trends. The first one has the following features:

The dynamics is a diffusion process (random walk) occurring on the network.
The structure is represented by different network models (random, small-world, scale-free).
Applications? Any.

Second trend:

The dynamics is related to the network evolution in terms of inclusion of nodes, rewiring of edges, etc, etc.
Motifs play a special role in structural analysis.
Special attention to food-webs.

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 [[Lucas Antiqueira]], [[Bruno Abrahao]], [[Jonathan Cannon]], [[Damian Blasi]], [[Gavin Fay]], [[Joseph Gran]], [[Chaitanya Gokhale]], [[Vanessa Weinberger]], [[Borys Wrobel]]
-Goal: Analyze relationships between network structure (degree, centrality, and so on) and a dynamical process occurring on the network.
+Goal: Analyze and explain relationships between network structure (degree, centrality, motifs, etc) and network dynamics.
+We have two different trends. The first one has the following features:
+* The dynamics is a diffusion process (random walk) occurring on the network.
+* The structure is represented by different network models (random, small-world, scale-free).
+* Applications? Any.
+Second trend:
+* The dynamics is related to the network evolution in terms of inclusion of nodes, rewiring of edges, etc, etc.
+* Motifs play a special role in structural analysis.
+* Special attention to food-webs.