a-c) Here we show an η = 5 network at three different coupling strengths, 4, 28 and 60. In green we show the phase divergence between the two largest modules, in blue we show the total number of nodes which change module assignment within that time window. Of note, in b we see the pattern of weakly interacting modules with slow then fast phase divergence. There are peaks of nodes assignment changes which occur shortly after a fast divergence phase at a time when the modules are internally resynchronising. d-e) show the mean and standard deviation of the number of assignment changes over a whole simulation as a function of connection strength for a range of η. f) Shows the mean distance of modes from the centre of mass of their assigned modu...
In the 6 panels, we represented the distributions of brain volume (x-axis) versus 6 indices that cha...
a) Progression of the order parameter of an example network over time, with the calculated synchrony...
<p>Inferred couplings are positive for small phase differences while they become negative for larger...
a-c) Module stability (the proportion of time a node spends in its most frequently associated module...
By rows, high η networks at the top to low η networks on the bottom row. By columns, low coupling st...
Inter-module interaction; a) Example network with two functional modules with the colour representin...
In single simulations a timepoint is taken and the network is shown with each node coloured accordin...
a) As seen in Fig 5E, the behaviour where we see high η networks transitioning through the critical ...
Functional behaviour of networks; a-d) Participation coefficient in high η networks at a range of co...
<p>The Stuart-Landau model was simulated on two different inhomogeneous networks, a random network (...
We investigate the connection between the dynamics of synchronization and the modu-larity on complex...
We investigate the connection between the dynamics of synchronization and the modularity on complex ...
In this study, we investigate clustering patterns generated in coupled chaotic circuits in networks....
We evolve topology of a network of N fully-coupled nodes that interact according to repulsion-attrac...
Hypothetical results are shown at the top of the diagram for network modules and PAM clusters: the s...
In the 6 panels, we represented the distributions of brain volume (x-axis) versus 6 indices that cha...
a) Progression of the order parameter of an example network over time, with the calculated synchrony...
<p>Inferred couplings are positive for small phase differences while they become negative for larger...
a-c) Module stability (the proportion of time a node spends in its most frequently associated module...
By rows, high η networks at the top to low η networks on the bottom row. By columns, low coupling st...
Inter-module interaction; a) Example network with two functional modules with the colour representin...
In single simulations a timepoint is taken and the network is shown with each node coloured accordin...
a) As seen in Fig 5E, the behaviour where we see high η networks transitioning through the critical ...
Functional behaviour of networks; a-d) Participation coefficient in high η networks at a range of co...
<p>The Stuart-Landau model was simulated on two different inhomogeneous networks, a random network (...
We investigate the connection between the dynamics of synchronization and the modu-larity on complex...
We investigate the connection between the dynamics of synchronization and the modularity on complex ...
In this study, we investigate clustering patterns generated in coupled chaotic circuits in networks....
We evolve topology of a network of N fully-coupled nodes that interact according to repulsion-attrac...
Hypothetical results are shown at the top of the diagram for network modules and PAM clusters: the s...
In the 6 panels, we represented the distributions of brain volume (x-axis) versus 6 indices that cha...
a) Progression of the order parameter of an example network over time, with the calculated synchrony...
<p>Inferred couplings are positive for small phase differences while they become negative for larger...