<p><b>a.</b> Top panels show the correlation coefficient as a function of lateral excitation for two different values of slow inhibition denoted by the colored arrows in the bottom panels. <b>b.</b> Image maps of the time averaged correlation coefficient as a function of lateral excitation and slow inhibition. The quantity to be maximized is calculated by summing the first two panels.</p
<p>Cyan color indicates synapses with uncorrelated inputs, and magenta indicates correlated inputs. ...
<p>Correlation coefficients between inhibition rates and triglyceride content.</p
<p>(A) Edge weight estimated by mean partial correlation. Fluorescence traces of a neuron pair (i, j...
<p><b>a.</b> The mean Euclidean distance between the representations of similar odors shown as a fun...
<p>(A) Nullclines of the average synaptic weight changes at different inhibitory amplitudes <i>w</i>...
<p>The solid line shows a linear fit to the data compounded over all ROIs except TP. Middle: amplitu...
<p>(A) Example of how correlations between inhibitors and stimuli were calculated. The two colored c...
<p>The asymptotic value of the uniform synaptic coefficient, is shown as a function of the level of...
<p><b>a.</b> Each group of panels shows the activity of a representative set of three neurons. The i...
<p>Activity in a network of binary inhibitory neurons with synaptic amplitudes . Each neuron receiv...
<p>The figure only illustrates a linear relation between FR and TRO. Panel A: Switch timing code. In...
Snapshots of the instantaneous phases (left panel) and the effective frequencies (right panel) for t...
<p>(<b>A</b>) The FFI circuit (left) can be decomposed into three submotifs. Equation (18) shows tha...
(a) After learning in the simulation using the DVS stimulus, the excitatory (red) and inhibitory (bl...
Snapshots of the instantaneous phases (left panel) and the effective frequencies (right panel) for t...
<p>Cyan color indicates synapses with uncorrelated inputs, and magenta indicates correlated inputs. ...
<p>Correlation coefficients between inhibition rates and triglyceride content.</p
<p>(A) Edge weight estimated by mean partial correlation. Fluorescence traces of a neuron pair (i, j...
<p><b>a.</b> The mean Euclidean distance between the representations of similar odors shown as a fun...
<p>(A) Nullclines of the average synaptic weight changes at different inhibitory amplitudes <i>w</i>...
<p>The solid line shows a linear fit to the data compounded over all ROIs except TP. Middle: amplitu...
<p>(A) Example of how correlations between inhibitors and stimuli were calculated. The two colored c...
<p>The asymptotic value of the uniform synaptic coefficient, is shown as a function of the level of...
<p><b>a.</b> Each group of panels shows the activity of a representative set of three neurons. The i...
<p>Activity in a network of binary inhibitory neurons with synaptic amplitudes . Each neuron receiv...
<p>The figure only illustrates a linear relation between FR and TRO. Panel A: Switch timing code. In...
Snapshots of the instantaneous phases (left panel) and the effective frequencies (right panel) for t...
<p>(<b>A</b>) The FFI circuit (left) can be decomposed into three submotifs. Equation (18) shows tha...
(a) After learning in the simulation using the DVS stimulus, the excitatory (red) and inhibitory (bl...
Snapshots of the instantaneous phases (left panel) and the effective frequencies (right panel) for t...
<p>Cyan color indicates synapses with uncorrelated inputs, and magenta indicates correlated inputs. ...
<p>Correlation coefficients between inhibition rates and triglyceride content.</p
<p>(A) Edge weight estimated by mean partial correlation. Fluorescence traces of a neuron pair (i, j...
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