<p>The thin blue lines represent the exponent values for 100 simulated networks and the thick red line represent the exponents for the actual network.</p
Degree distribution chart of A) the real network, B) the selected synthetic network.</p
<p>The distribution of the number of connections at each node, or degree, is plotted for each of the...
<p>Left image: lin-log scales; right image: log-log scales. The distributions for the rewired graphs...
<p>The thin blue lines represent the exponent values for 100 simulated networks and the thick red li...
<p>The log-log plot of cumulative degree distributions of ALL (A) and CON (B) networks thresholded a...
<p>All degree distributions are power-law-like. and are respectively showed in the 3rd and 4th row...
<p>The proportion of the population with each given degree are different for a Poisson network (red ...
<p>The thin blue lines represent the 100 simulated networks and the thick red line represent the act...
We bring rigor to the vibrant activity of detecting power laws in empirical degree distributions in ...
We bring rigor to the vibrant activity of detecting power laws in empirical degree distributions in ...
<p>Sample network topologies: (a) Barabasi Network with 100 nodes (power-law exponent equal to 1); ...
Abstract. Many complex systems have been modeled as networks. Examples of such systems that are of i...
<p>Average degree distribution of all frequency ranges for networks set at 1% connectivity density. ...
<p>We confirm that degree obeys the power law distribution with exponent −1.3, namely, .</p
The networks degree distributions with different m values for r = 15 on original network of average ...
Degree distribution chart of A) the real network, B) the selected synthetic network.</p
<p>The distribution of the number of connections at each node, or degree, is plotted for each of the...
<p>Left image: lin-log scales; right image: log-log scales. The distributions for the rewired graphs...
<p>The thin blue lines represent the exponent values for 100 simulated networks and the thick red li...
<p>The log-log plot of cumulative degree distributions of ALL (A) and CON (B) networks thresholded a...
<p>All degree distributions are power-law-like. and are respectively showed in the 3rd and 4th row...
<p>The proportion of the population with each given degree are different for a Poisson network (red ...
<p>The thin blue lines represent the 100 simulated networks and the thick red line represent the act...
We bring rigor to the vibrant activity of detecting power laws in empirical degree distributions in ...
We bring rigor to the vibrant activity of detecting power laws in empirical degree distributions in ...
<p>Sample network topologies: (a) Barabasi Network with 100 nodes (power-law exponent equal to 1); ...
Abstract. Many complex systems have been modeled as networks. Examples of such systems that are of i...
<p>Average degree distribution of all frequency ranges for networks set at 1% connectivity density. ...
<p>We confirm that degree obeys the power law distribution with exponent −1.3, namely, .</p
The networks degree distributions with different m values for r = 15 on original network of average ...
Degree distribution chart of A) the real network, B) the selected synthetic network.</p
<p>The distribution of the number of connections at each node, or degree, is plotted for each of the...
<p>Left image: lin-log scales; right image: log-log scales. The distributions for the rewired graphs...
DOI
Add to ORKG