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Carney-like_syn-inp_model2.c

Carney-like_syn-inp_model2.c

 
 

Carney-like_syn-inp_model2__Figure1.eps

Carney-like_syn-inp_model2__Figure1.eps

 
 

Carney-like_syn-inp_model2__Figure2.eps

Carney-like_syn-inp_model2__Figure2.eps

 
 

Gauss-jittered__syn-inp_model1.c

Gauss-jittered__syn-inp_model1.c

 
 

Gauss-jittered__syn-inp_model1_frozen-IKLT.c

Gauss-jittered__syn-inp_model1_frozen-IKLT.c

 
 

Gauss-jittered__syn-inp_model1_three-diff-cases.eps

Gauss-jittered__syn-inp_model1_three-diff-cases.eps

 
 

Gauss-jittered__syn-inp_model1_three-diff-frequencies.eps

Gauss-jittered__syn-inp_model1_three-diff-frequencies.eps

 
 

Gauss-jittered__syn-inp_model1_w-inh.c

Gauss-jittered__syn-inp_model1_w-inh.c

 
 

README.rtf

README.rtf

 
 

README.txt

README.txt

 
 

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{\*\pgdscno0}\paperh15840\paperw12240\margl1440\margr1440\margt1440\margb1440\sectd\sbknone\pgwsxn12240\pghsxn15840\marglsxn1440\margrsxn1440\margtsxn1440\margbsxn1440\ftnbj\ftnstart1\ftnrstcont\ftnnar\aenddoc\aftnrstcont\aftnstart1\aftnnrlc
\pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ab\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\b\loch\f1\fs24\lang1033\b {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b This is the readme for the model associated with the paper:}
\par \pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ab\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\b\loch\f1\fs24\lang1033\b 
\par \pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ab\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\b\loch\f1\fs24\lang1033\b{\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b{\rtlch\ltrch\dbch\hich\b0\loch\b0 Jercog PE, Svirskis G, Kotak VC, Sanes DH, Rinzel J (2010) Asymmetric excitatory synaptic dynamics underlie interaural time difference processing in the auditory system. }}{\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b{\*\cs8\cf0\rtlch\ltrch\dbch\hich\f1\fs24\lang1033\i\loch\f1\fs24\lang1033\i\rtlch\ltrch\dbch\hich\b0\loch\b0{\field{\*\fldinst HYPERLINK "http://dx.doi.org/10.1371/journal.pbio.1000406" }{\fldrslt \*\cs9\cf2\ul\ulc0\rtlch\ltrch\dbch\hich\f1\fs24\lang255\loch\f1\fs24\lang255 PLoS Biol}{\rtlch\ltrch\dbch\hich\b0\loch\b0}}  }{\*\cs10\cf0\rtlch\ltrch\dbch\hich\f1\fs24\lang1033\b\loch\f1\fs24\lang1033\b\rtlch\ltrch\dbch\hich\b0\loch\b0 8}{\rtlch\ltrch\dbch\hich\b0\loch\b0 :e1000406}}
\par \pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 The model code was contributed by Pablo Jercog.}
\par \pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ab\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\b\loch\f1\fs24\lang1033\b 
\par \pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ab\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\b\loch\f1\fs24\lang1033\b {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b Two Models for synaptic inputs statistics for the MSO neuron}
\par \pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 These two models generate the conductance, membrane potential and low threshold potassium current time courses for bilateral inputs at different ITDs. These codes also produce ITD-tuning curves for cell model given these synaptic input models.}
\par \pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 \'0dThis Medial Superior Olivary (MSO) neuron model generates responses to\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 two synaptic input trains that mimic interaural time delay (ITD)\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 inputs from the two ears for pure tone stimuli. An MSO neuron\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 generates spikes if the \'91bilateral\'92 inputs are nearly coincident in\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 time, performing a crucial neuronal computation in the mammalian\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 brainstem for sound localization. The model is a point neuron model\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 with ionic currents from Rothman & Mannis (2003) and with an update of\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 the low threshold potassium current (IKLT) measured in-vitro by\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 Mathews & Jercog et al (2010). This model in conjunction with the\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 synaptic input models presented here has been used to gain insight\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 into mechanisms that account for experimentally observed asymmetries\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 in ITD tuning (Brand et al, 2002). Asymmetry and displacement of the\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 ITD response function is achieved in the model by the interplay\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 between asymmetry of the excitatory inputs arriving from the two sides\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 and the precise voltage dependent activation of IKLT. In Jercog et al\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 (2010) we propose two different mathematical ways, physiologically\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 plausible scenarios, of generating the asymmetry in the bilateral\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 synaptic input events. Here, we present two models for simulating the\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 stochastic synaptic input trains.\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 \'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 Model 1: The "Gaussian-jittered poisson-modulated synaptic inputs\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 model" is a simple model that we used in figure 3 (Jercog et al 2010)\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 for presynaptic event times. It involves a partially\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 rectified-sinusoidal time-modulated poisson function with additional\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 gaussian jitter to further randomize each individual event time on a\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 given cycle. This model best resembles our recorded data (in vitro,\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 bilaterally stimulated MSO neuron) in terms of variability in\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 composite EPSP amplitude, half-width and rising slope. A potential\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 source of gaussian statistical distribution that we include in the\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 time of presynaptic events is attributed to a possible distribution of\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 delays of pre-synaptic pathways' propagation-time (say, gaussian\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 distribution of axonal lengths) and location of pre-synaptic terminals\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 over the MSO dendrites (also gaussian as the simplest biological\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 plausible distribution).\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 \'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 Model 2: The "Carney-like" synaptic input model generates presynaptic\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 input event times using Carney's 1993 auditory nerve model, modifying\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 the parameter values in order to obtain summated EPSPs with a rising\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 slope in the range of values as observed in our experiments (figure 2\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 in Jercog et al 2010). This model was used as a proof of principles to\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 generate figures 4 and 5 (Jercog et al 2010) based on a model, well\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 know in the auditory community. See also: Carney 1993, Brughera et al\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 1996, Rothman et al 1993, first proposed by Johnson et al 1986.\'0d}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 How to run the models:}
\par \pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 # gcc [code-name.c] -lm -O3 -o [executable-name]}
\par \pard\plain \ltrpar\s1\cf0{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 # ./[executable-name]}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 #########################################################################################}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 Outputs from these codes:}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 (Plotting the outputs in gnuplot or matlab it's easy)}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 "Model1_STA_epsg_epsp_iklt.dat" different  averaged values triggered by the spike detection}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 first column = ITD}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 second column = time before the spike's peak (ms)}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 third column = spike triggered voltage average}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 forth column = spike triggered voltage lowest-range trace}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 fifth column = spike triggered voltage highest-range trace}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 sixth column = non-spike triggered voltage average}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 seventh column = non-spike triggered voltage lowest-range trace}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 eighth column = non-spike triggered voltage highest-range trace}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 ninth column = non-spike triggered voltage std.dev. }
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 tenth column = spike triggered low-treshold potassium current (IKLT) average}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 eleventh column = spike triggered low-treshold potassium conductance (gKLT) average}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 twelfth column = non-spike triggered low-treshold potassium conductance (gKLT) average}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 thirteenth column = non-spike triggered ipsilateral excitatory conductance average}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 fourteenth column = non-spike triggered contralateral excitatory conductance average}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 fifteenth column = spike triggered ipsilateral excitatory conductance average}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 sixteenth column = spike triggered contralateral excitatory conductance average}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 "Model1_train_EPSGs-EPSPs.dat" is the train of EPSPs and EPSGs for ITD = 0msec.}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 first column=time}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 second column=voltage time course}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 third column = sinusoidal time modulation of the synaptic poisson rate}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 forth column = total synaptic input}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 fifth column = ipsilateral excitatory synaptic input}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 sixth column = contralateral excitatory synaptic input}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 "Model1_ITD-curve.dat" ITD response function}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 first column = ITD}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 second column = spike count/(total number of sinusoidal cycles that modulate the poisson rate)}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 ###################################################################################}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 "Model2_syn-events-ipsi.dat", "Model2_syn-events-contra.dat" are the output files that contain:}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 first column=current time of the simulation;}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 second column= index of the synaptic input that is activated}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 third column= the exact time where the i-th event is located}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 forth column= value of the poisson event rate function at the time of the decision of creating a synaptic event.}
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 (ipsi and contra correspond to each bilateral input.)}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 "Model2_train_EPSGs-EPSPs.dat" is the train of EPSPs and EPSGs for ITD = 0msec.}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 first column=time}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 second column=voltage time course}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 third column = sinusoidal time modulation of the synaptic poisson rate}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 forth column = total synaptic input}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 fifth column = ipsilateral excitatory synaptic input}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 sixth column = contralateral excitatory synaptic input}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 "Model2_ITD-curve.dat" ITD response function}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 first column = ITD}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 second column = spike count/(total number of sinusoidal cycles that modulate the poisson rate )}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 "Model2_STA_epsg_epsp_iklt.dat" different  averaged values triggered by the spike detection}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 first column=time previous to the spike's peak}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 second column=spike triggered voltage average previous to the spike's peak}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 third column = spike triggered ipsilateral EPSG average previous to the spike's peak}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 forth column = spike triggered contralateral EPSG average previous to the spike's peak}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af1\afs24\lang1081\ltrch\dbch\af1\langfe2052\hich\f1\fs24\lang1033\loch\f1\fs24\lang1033 {\rtlch \ltrch\loch\f1\fs24\lang1033\i0\b0 fifth column = spike triggered contralateral IPSG average previous to the spike's peak}
\par \pard\plain \ltrpar\s1\cf0\tx480{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af4\afs24\lang1081\ltrch\dbch\af4\langfe2052\hich\f4\fs24\lang1033\loch\f4\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af4\afs24\lang1081\ltrch\dbch\af4\langfe2052\hich\f4\fs24\lang1033\loch\f4\fs24\lang1033 
\par \pard\plain \ltrpar\s1\cf0\tx560\tx1120\tx1680\tx2240\tx2800\tx3360\tx3920\tx4480\tx5040\tx5600\tx6160\tx6720{\*\hyphen2\hyphlead2\hyphtrail2\hyphmax0}\rtlch\af3\afs24\lang1081\ltrch\dbch\af3\langfe2052\hich\f3\fs24\lang1033\loch\f3\fs24\lang1033 
\par }

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Two Models for synaptic input statistics for the MSO neuron model (Jercog et al. 2010)

modeldb.science/141991

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