<p>(<b>A</b>) Time series of global order parameter for the network shown in <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0075569#pone-0075569-g012" target="_blank">Figure 12 </a><b>A</b> with . These values were chosen to maximise the oscillatory behaviour. (<b>B</b>) Corresponding Fourier spectrum for signal in <b>A</b>.</p
<p>Left panel: for each couple (<i>M</i>, <i>γ</i>/4) ∈ [5, 50] × [2, 10] we numerically simulate th...
<p>(A) shows the trajectory of the “membrane potential” of an oscillator in the network. (B) shows i...
<p>The graph shows the average Fourier transform intensity for recordings at 2983 points during the ...
<p>(<b>A</b>) Time series of global order parameter for the network shown in <a href="http://www.pl...
<p>(<b>A</b>) Time series of global order parameter for a network with two levels of hierarchy with...
<p>(<b>A</b>) Time series of global order parameter for the network shown in <a href="http://www.pl...
<p>Time series of global order parameter, , for increasingly perturbed hierarchical network of Kuram...
<p>Time series for global order parameter, with (<b>A</b>), (<b>B</b>), and (<b>C</b>) showing mu...
<p>Time series for global order parameter, , for various networks of coupled Kuramoto oscillators. E...
The synchronization in large populations of interacting oscillators has been observed abundantly in ...
<p><i>N</i> = 100 oscillators (circles) are drawn on the unitary circle, their angular position is g...
<p><b>A</b>: For below a critical value (red, dotted line) the signal is irregular and the order ...
<p>When the coupling strength has critical value , the system is metastable and demonstrates the gre...
a) Kuramoto oscillators are spatially arranged in a hexagonal grid and are sparsely connected to eac...
<p><b>a)</b> Time evolution of the phase difference between two nodes of the anatomically-connected ...
<p>Left panel: for each couple (<i>M</i>, <i>γ</i>/4) ∈ [5, 50] × [2, 10] we numerically simulate th...
<p>(A) shows the trajectory of the “membrane potential” of an oscillator in the network. (B) shows i...
<p>The graph shows the average Fourier transform intensity for recordings at 2983 points during the ...
<p>(<b>A</b>) Time series of global order parameter for the network shown in <a href="http://www.pl...
<p>(<b>A</b>) Time series of global order parameter for a network with two levels of hierarchy with...
<p>(<b>A</b>) Time series of global order parameter for the network shown in <a href="http://www.pl...
<p>Time series of global order parameter, , for increasingly perturbed hierarchical network of Kuram...
<p>Time series for global order parameter, with (<b>A</b>), (<b>B</b>), and (<b>C</b>) showing mu...
<p>Time series for global order parameter, , for various networks of coupled Kuramoto oscillators. E...
The synchronization in large populations of interacting oscillators has been observed abundantly in ...
<p><i>N</i> = 100 oscillators (circles) are drawn on the unitary circle, their angular position is g...
<p><b>A</b>: For below a critical value (red, dotted line) the signal is irregular and the order ...
<p>When the coupling strength has critical value , the system is metastable and demonstrates the gre...
a) Kuramoto oscillators are spatially arranged in a hexagonal grid and are sparsely connected to eac...
<p><b>a)</b> Time evolution of the phase difference between two nodes of the anatomically-connected ...
<p>Left panel: for each couple (<i>M</i>, <i>γ</i>/4) ∈ [5, 50] × [2, 10] we numerically simulate th...
<p>(A) shows the trajectory of the “membrane potential” of an oscillator in the network. (B) shows i...
<p>The graph shows the average Fourier transform intensity for recordings at 2983 points during the ...