<p>A simple example of the network evolution driven by homophily in local structure.</p
In this paper it is analysed how emerging behaviour of an adaptive network can be related to charact...
Abstract Homophily—the tendency of nodes to connect to others of the same type—is a central issue in...
<p>Functional evolution of newly developed urban patches in neighboring periods.</p
Example of a network, its transition function, and its initial and desired states.</p
<p>Topology features of networks obtained by our evolution model, where (a) is an example of supply ...
Mock network structure with a positive homophily coefficient between 0 and 1.</p
<p>The black line represents transitivity, the red line indicates the global efficiency, the blue li...
<p>The figure highlights the microscopic emergence of cooperation in the evolutionary process. The f...
<p>(a) The community distribution of the network. (b) The link density matrix of the corresponding c...
<p>(A) An illustration that how these landmarks forming a sub-network. (B) A real example that two g...
<p>The left panel represents the status of the network before the network evolution, in which the fo...
<p>Examples of two different dynamic networks, (a) and (b), that lead to the same static network (c)...
Evolution functions for the Boolean network model of Drosophila melanogaster.</p
A simple rule for the evolution of cooperation on graphs and social networks, ReScience 3(5), 201
Network topology and the evolution of dynamics in an artificial regulatory network model created by ...
In this paper it is analysed how emerging behaviour of an adaptive network can be related to charact...
Abstract Homophily—the tendency of nodes to connect to others of the same type—is a central issue in...
<p>Functional evolution of newly developed urban patches in neighboring periods.</p
Example of a network, its transition function, and its initial and desired states.</p
<p>Topology features of networks obtained by our evolution model, where (a) is an example of supply ...
Mock network structure with a positive homophily coefficient between 0 and 1.</p
<p>The black line represents transitivity, the red line indicates the global efficiency, the blue li...
<p>The figure highlights the microscopic emergence of cooperation in the evolutionary process. The f...
<p>(a) The community distribution of the network. (b) The link density matrix of the corresponding c...
<p>(A) An illustration that how these landmarks forming a sub-network. (B) A real example that two g...
<p>The left panel represents the status of the network before the network evolution, in which the fo...
<p>Examples of two different dynamic networks, (a) and (b), that lead to the same static network (c)...
Evolution functions for the Boolean network model of Drosophila melanogaster.</p
A simple rule for the evolution of cooperation on graphs and social networks, ReScience 3(5), 201
Network topology and the evolution of dynamics in an artificial regulatory network model created by ...
In this paper it is analysed how emerging behaviour of an adaptive network can be related to charact...
Abstract Homophily—the tendency of nodes to connect to others of the same type—is a central issue in...
<p>Functional evolution of newly developed urban patches in neighboring periods.</p
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