Panels A-C show the frequency of temporally-regular, chimera, and temporally-irregular states with network size N and p = 0.2, 0.25, …, 0.45. Each point represents a fraction of 100 networks whose dynamics were generated from random initial conditions; this means that the frequency of each state for a single value of N and p should add to one. Panels D-F show the frequency of the three dynamical classes for the same range of N and p = 0.5, 0.55, …, 0.8.</p
The average effective size for three kinds of networks is computed in a random sample (with replacem...
<p>Box plots of the distributions of persistences (panel ), births (panel ) and lengths (panel ) ...
<p>From Fig 3a to Fig 3e, each figure shows the plot of global topological patterns of distinct freq...
One-hundred networks with 500 different initial conditions each were generated with edge densities (...
<p>(A) Frequency distribution of precursor number across network states, estimated from 40,000 rando...
Panel A shows the degree statistics (mean and variance) for 1000 beta networks of size N = 200 for e...
We examine the effect of increasing both system size and number of active OP populations on the osci...
Panels A-C show sample NCD matrices for Barabási-Albert pulse-coupled oscillator networks with 16 no...
<p>(a, b) Effect of the input amplitude on oscillation properties. (a) Histograms of firing probabil...
<p><b> and </b><b>.</b> Percentage of simulations with qualitative dynamics plotted as described in ...
A) Dependence of on network size N. With common input, for large N, but is constant for independen...
<p>(A) Small swarm trials, <i>N</i> = 81. (B) Large swarm trials, <i>N</i> = 65. (C) Solitary crabs...
A. The maximal Lyapunov exponent (MLE) as a function of the projection width (σi) and the time const...
<p>Networks of loosely coupled oscillators of different size exhibit different resonance characteris...
<p>The average attractor number (A), attractor length (B), and transient time (C) increase linearly ...
The average effective size for three kinds of networks is computed in a random sample (with replacem...
<p>Box plots of the distributions of persistences (panel ), births (panel ) and lengths (panel ) ...
<p>From Fig 3a to Fig 3e, each figure shows the plot of global topological patterns of distinct freq...
One-hundred networks with 500 different initial conditions each were generated with edge densities (...
<p>(A) Frequency distribution of precursor number across network states, estimated from 40,000 rando...
Panel A shows the degree statistics (mean and variance) for 1000 beta networks of size N = 200 for e...
We examine the effect of increasing both system size and number of active OP populations on the osci...
Panels A-C show sample NCD matrices for Barabási-Albert pulse-coupled oscillator networks with 16 no...
<p>(a, b) Effect of the input amplitude on oscillation properties. (a) Histograms of firing probabil...
<p><b> and </b><b>.</b> Percentage of simulations with qualitative dynamics plotted as described in ...
A) Dependence of on network size N. With common input, for large N, but is constant for independen...
<p>(A) Small swarm trials, <i>N</i> = 81. (B) Large swarm trials, <i>N</i> = 65. (C) Solitary crabs...
A. The maximal Lyapunov exponent (MLE) as a function of the projection width (σi) and the time const...
<p>Networks of loosely coupled oscillators of different size exhibit different resonance characteris...
<p>The average attractor number (A), attractor length (B), and transient time (C) increase linearly ...
The average effective size for three kinds of networks is computed in a random sample (with replacem...
<p>Box plots of the distributions of persistences (panel ), births (panel ) and lengths (panel ) ...
<p>From Fig 3a to Fig 3e, each figure shows the plot of global topological patterns of distinct freq...