<p>The black triangles indicate the network for , the red nablas for and the green squares for . The black dashed line is proportional to , the red dash-dotted line is proportional to and the green dash-double-dotted line is proportional to .</p
<p>(a) average neighboring out-degree () and out-degree () of each user from real data, (b) product ...
<p>All degree distributions are power-law-like. and are respectively showed in the 3rd and 4th row...
<p>Number of vertices , number of edges , average degree , number of connected components , average ...
Degree distribution chart of A) the real network, B) the selected synthetic network.</p
<p>(a) vs ; (b) vs ; (c) vs with . Network parameters: , average degree . Curves with hollow cir...
<p>The thin blue lines represent the exponent values for 100 simulated networks and the thick red li...
<p>Results of degree correlations as measured by four quantities corresponding to the average neares...
<p>The red dots show infected vertices and the green dots represent susceptible vertices. The inset ...
<p>(A) The characteristic path length (<i>L</i>) and (B) the clustering coefficient (<i>C</i>) in ch...
<p>Clustering coefficient (A) and degree assortativity (B) values generated by the CMext and SpecNet...
<p>Results of the Epinions social network (black squares) and simulation results (red circles) based...
<p>Nodes and Edges represent nodes’ number and edges’ number of network, respectively. ⟨<i>k</i>⟩ de...
<p>The proportion of the population with each given degree are different for a Poisson network (red ...
<p>The size and color of the square is relative to the global scores of the spatial autocorrelation ...
A Average weight as a function of endpoint degree, B Average weighted nearest neighbor’s degree as a...
<p>(a) average neighboring out-degree () and out-degree () of each user from real data, (b) product ...
<p>All degree distributions are power-law-like. and are respectively showed in the 3rd and 4th row...
<p>Number of vertices , number of edges , average degree , number of connected components , average ...
Degree distribution chart of A) the real network, B) the selected synthetic network.</p
<p>(a) vs ; (b) vs ; (c) vs with . Network parameters: , average degree . Curves with hollow cir...
<p>The thin blue lines represent the exponent values for 100 simulated networks and the thick red li...
<p>Results of degree correlations as measured by four quantities corresponding to the average neares...
<p>The red dots show infected vertices and the green dots represent susceptible vertices. The inset ...
<p>(A) The characteristic path length (<i>L</i>) and (B) the clustering coefficient (<i>C</i>) in ch...
<p>Clustering coefficient (A) and degree assortativity (B) values generated by the CMext and SpecNet...
<p>Results of the Epinions social network (black squares) and simulation results (red circles) based...
<p>Nodes and Edges represent nodes’ number and edges’ number of network, respectively. ⟨<i>k</i>⟩ de...
<p>The proportion of the population with each given degree are different for a Poisson network (red ...
<p>The size and color of the square is relative to the global scores of the spatial autocorrelation ...
A Average weight as a function of endpoint degree, B Average weighted nearest neighbor’s degree as a...
<p>(a) average neighboring out-degree () and out-degree () of each user from real data, (b) product ...
<p>All degree distributions are power-law-like. and are respectively showed in the 3rd and 4th row...
<p>Number of vertices , number of edges , average degree , number of connected components , average ...