<p>(A) The non-zero inhibitory synaptic weights in the RPCA model have a near log-normal distribution. (B) The Quantile-Quantile (QQ) plot of the starndardized log of the model distribution vs. a standard normal distribution. A line is drawn through the 25% and 75% quantile to illustrate the goodness of fit. The model distribution has a visible tail towards the smaller weights.</p
<p>(A) Distributions of size remodeling covariance values (Pearson’s correlation) for CI and non-CI ...
<p>The graphs show the relative excitability as a function of the additional synaptic input per ne...
<p>A: example traces of different synaptic weights. B: distribution of life times of newly created s...
<p>Comparing the distributions of the synaptic weights at critical capacity for three different valu...
<p><b>A</b>: Distribution of firing rates of excitatory neurons. The magenta line shows a log-normal...
<div><p>(A) Estimated probability density function in log–log space, with both lognormal fit (<i>p</...
<p>(For A,B,C,D, ms.) <b>A:</b> A U-shaped bimodal distribution generated by additive mode, with an...
<p>Distribution of synaptic weights for three different connection types: feedforward (left), feedba...
<p>A: histogram of EPSP sizes from <a href="http://www.ploscompbiol.org/article/info:doi/10.1371/jou...
<p>(a) Histogram of the <i>g</i><sub><i>MS</i></sub> values. Inset: AS provides limited weight distr...
<p>Average synaptic weights for three different connection types: feedforward (squares), feedback (c...
<p>Top panels: a) Two self-similar Gaussian synaptic weight distributions. b) The distribution of th...
<p>Distribution of synaptic weights for different connection types: feedforward (left), feedback (mi...
<p><b>A</b> Distribution of excitatory (PY) synapses. <b>B</b> Distribution of inhibitory (IN) synap...
<p>The histograms (a) and (b) show the simulated results for the steady state protein distributions ...
<p>(A) Distributions of size remodeling covariance values (Pearson’s correlation) for CI and non-CI ...
<p>The graphs show the relative excitability as a function of the additional synaptic input per ne...
<p>A: example traces of different synaptic weights. B: distribution of life times of newly created s...
<p>Comparing the distributions of the synaptic weights at critical capacity for three different valu...
<p><b>A</b>: Distribution of firing rates of excitatory neurons. The magenta line shows a log-normal...
<div><p>(A) Estimated probability density function in log–log space, with both lognormal fit (<i>p</...
<p>(For A,B,C,D, ms.) <b>A:</b> A U-shaped bimodal distribution generated by additive mode, with an...
<p>Distribution of synaptic weights for three different connection types: feedforward (left), feedba...
<p>A: histogram of EPSP sizes from <a href="http://www.ploscompbiol.org/article/info:doi/10.1371/jou...
<p>(a) Histogram of the <i>g</i><sub><i>MS</i></sub> values. Inset: AS provides limited weight distr...
<p>Average synaptic weights for three different connection types: feedforward (squares), feedback (c...
<p>Top panels: a) Two self-similar Gaussian synaptic weight distributions. b) The distribution of th...
<p>Distribution of synaptic weights for different connection types: feedforward (left), feedback (mi...
<p><b>A</b> Distribution of excitatory (PY) synapses. <b>B</b> Distribution of inhibitory (IN) synap...
<p>The histograms (a) and (b) show the simulated results for the steady state protein distributions ...
<p>(A) Distributions of size remodeling covariance values (Pearson’s correlation) for CI and non-CI ...
<p>The graphs show the relative excitability as a function of the additional synaptic input per ne...
<p>A: example traces of different synaptic weights. B: distribution of life times of newly created s...