<p>The network density grows from left to right. Here (a) is a ring-like network and (d) is the fully connected network.</p
<p>The figure shows two examples where a node with degree 3 may be part of a sparsely-connected star...
<p>The average degree is increasing in the number of shared community. This means that nodes that be...
<p>The degree of the central node in both (a) and (b) is 4 and the strength is 12, but the distribut...
The networks degree distributions with different m values for r = 15 on original network of average ...
<p>Right column shows illustrations of prototypical networks: the (ring) lattice small-world, the cl...
<p>The distribution of the number of connections at each node, or degree, is plotted for each of the...
<p>The diameter of the networks decreases from top to bottom. <i>D</i><sub><i>G</i></sub> and <i>D</...
<p>The network size is 900. The parameter α is 1.0, 0.7, 0.3 and 0.0 respectively. α = 1 corresponds...
<p>Plot shows average clustering coefficient of nodes per degree for full (left figure) and major (r...
These degrees do not consider the connections among layers. The superscripts (a,b) represent cases w...
<p>Size of networks studied in this paper, along with their average degree 〈<i>k</i>〉 and degree ass...
<p>Plot A and D: Strength distribution of the semantic (A) and users’ interest network (D). The dist...
<p>n and m are the total numbers of nodes and links, respectively. and denote the average and the ...
(left) The density for each layer was calculated as the ratio of the sum of the weights of all conne...
<p>The size of the network is 900. The number of rewiring times <i>L</i> is 0, 90, 900 and 3600 resp...
<p>The figure shows two examples where a node with degree 3 may be part of a sparsely-connected star...
<p>The average degree is increasing in the number of shared community. This means that nodes that be...
<p>The degree of the central node in both (a) and (b) is 4 and the strength is 12, but the distribut...
The networks degree distributions with different m values for r = 15 on original network of average ...
<p>Right column shows illustrations of prototypical networks: the (ring) lattice small-world, the cl...
<p>The distribution of the number of connections at each node, or degree, is plotted for each of the...
<p>The diameter of the networks decreases from top to bottom. <i>D</i><sub><i>G</i></sub> and <i>D</...
<p>The network size is 900. The parameter α is 1.0, 0.7, 0.3 and 0.0 respectively. α = 1 corresponds...
<p>Plot shows average clustering coefficient of nodes per degree for full (left figure) and major (r...
These degrees do not consider the connections among layers. The superscripts (a,b) represent cases w...
<p>Size of networks studied in this paper, along with their average degree 〈<i>k</i>〉 and degree ass...
<p>Plot A and D: Strength distribution of the semantic (A) and users’ interest network (D). The dist...
<p>n and m are the total numbers of nodes and links, respectively. and denote the average and the ...
(left) The density for each layer was calculated as the ratio of the sum of the weights of all conne...
<p>The size of the network is 900. The number of rewiring times <i>L</i> is 0, 90, 900 and 3600 resp...
<p>The figure shows two examples where a node with degree 3 may be part of a sparsely-connected star...
<p>The average degree is increasing in the number of shared community. This means that nodes that be...
<p>The degree of the central node in both (a) and (b) is 4 and the strength is 12, but the distribut...
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