Blue = A → B, red = B → A. The black line indicates the level above which the number of connections is statistically significant (p n = 50, k1 = 3, kA = 50, μ = 3, wE = 0.27, wI = −0.3, and tmax given on the x-axis.</p
<p>Black lines are predicted <i>t<sub>min</sub></i> (Eq. 13), simulation results with <i>k</i> = 1 a...
<p>(a) Black circles: minimum observed ISI for each active cell in network simulations of different ...
<p>(<b>A</b>) Comparison of connectivity statistics from Cx3D simulations (blue) with experimental d...
(A) Percentage of connected areas, shown as the fraction of possible connections that are present in...
The red line indicates the significant level of connections indicating transfer of information betwe...
Each circle shows the sample probability of 500 independent simulations, and the solid line shows th...
A classifier was trained to predict connection existence of a simulated network from the associated ...
<p>(<b>A</b>) TE p-value histogram for real and randomized data. Real data show many more pairs of n...
<p>A) Shows the misses (normalized MSE), which are computed on the edge from node 1 to node 2 (<a hr...
<p>Connectivity is shown where connections exist in 60% or more of subjects, for visualisation only—...
Top row corresponds to the run-times in seconds of different methods in scenario (S1) and scenario (...
A classifier was trained to predict connection existence of a simulated network from the associated ...
<p><i>N</i>, <i>M</i> and <i>L</i> are the number of individuals, edges in the accumulated network (...
The leftmost quadratic model is fit on x from 0 to 0.09, with R2 = 0.99109. The middle quadratic mod...
<p>(A) Connection fraction of recurrent excitatory connections. (B) Time course of the weights of 10...
<p>Black lines are predicted <i>t<sub>min</sub></i> (Eq. 13), simulation results with <i>k</i> = 1 a...
<p>(a) Black circles: minimum observed ISI for each active cell in network simulations of different ...
<p>(<b>A</b>) Comparison of connectivity statistics from Cx3D simulations (blue) with experimental d...
(A) Percentage of connected areas, shown as the fraction of possible connections that are present in...
The red line indicates the significant level of connections indicating transfer of information betwe...
Each circle shows the sample probability of 500 independent simulations, and the solid line shows th...
A classifier was trained to predict connection existence of a simulated network from the associated ...
<p>(<b>A</b>) TE p-value histogram for real and randomized data. Real data show many more pairs of n...
<p>A) Shows the misses (normalized MSE), which are computed on the edge from node 1 to node 2 (<a hr...
<p>Connectivity is shown where connections exist in 60% or more of subjects, for visualisation only—...
Top row corresponds to the run-times in seconds of different methods in scenario (S1) and scenario (...
A classifier was trained to predict connection existence of a simulated network from the associated ...
<p><i>N</i>, <i>M</i> and <i>L</i> are the number of individuals, edges in the accumulated network (...
The leftmost quadratic model is fit on x from 0 to 0.09, with R2 = 0.99109. The middle quadratic mod...
<p>(A) Connection fraction of recurrent excitatory connections. (B) Time course of the weights of 10...
<p>Black lines are predicted <i>t<sub>min</sub></i> (Eq. 13), simulation results with <i>k</i> = 1 a...
<p>(a) Black circles: minimum observed ISI for each active cell in network simulations of different ...
<p>(<b>A</b>) Comparison of connectivity statistics from Cx3D simulations (blue) with experimental d...