function [ANdata,vFreq] = zilany2007(stim_level,stim,fsstim,fsmod,varargin)
%ZILANY2007 Auditory-nerve filterbank (basic)
% Usage: [ANdata,vFreq] = zilany2007(lvl,stim,fsstim,fsmod);
%
% Input parameters:
% stim_level : Level of stimulus [peSPL]
% stim : Pressure waveform of stimulus (timeseries)
% fsstim : Sampling frequency of stimulus
% fsmod : Model sampling frequency (often 200kHz)
%
% Output parameters:
% ANdata : exicitation in 500 different AN fibers spaced equally on the BM
% vFreq : Frequency vector containing the 500 center frequencies
%
% ZILANY2007(stim_lvl, stim, fsstim, fsmod) returns simulations
% from Rønne et al. (2012). It calls the mex'ed C code containing the
% humanized version of Zilany et al. (2007)'s AN model. The humanization
% is described in Rønne et al. (2012). The AN model is called 500 times to
% simulate 500 fibers tuned to different center frequencies.
% Please cite Rønne et al (2012) and Zilany and Bruce (2007) if you use
% this model.
%
% This function takes the following optional parameters:
%
% 'flow',flow Lowest centre frequency. Default value is 100.
%
% 'fhigh',fhigh Highest centre frequency. Default value is 16000.
%
% 'numCF',nf Number of fibers between lowest and highest
% frequency. The fibers will be equidistantly spaced
% on the basilar membrane. Default value is 500.
%
% Requirements and installation:
% ------------------------------
%
% 1) Compiled mex files (run amt_mex)
%
% See also: demo_zilany2014 zilany2014_synapse zilany2014_innerhaircells
% zilany2014_ffgn zilany2014
% plot_roenne2012 plot_roenne2012_chirp plot_roenne2012_tonebursts
% baumgartner2016_spectralanalysis roenne2012_click roenne2012_chirp
% roenne2012_tonebursts roenne2012 baumgartner2013
%
% References:
% F. M. Rønne, T. Dau, J. Harte, and C. Elberling. Modeling auditory
% evoked brainstem responses to transient stimuli. The Journal of the
% Acoustical Society of America, 131(5):3903--3913, 2012. [1]http ]
%
% M. S. A. Zilany and I. C. Bruce. Representation of the vowel (epsilon)
% in normal and impaired auditory nerve fibers: Model predictions of
% responses in cats. J. Acoust. Soc. Am., 122(1):402--417, jul 2007.
%
% References
%
% 1. http://scitation.aip.org/content/asa/journal/jasa/131/5/10.1121/1.3699171
%
%
% Url: http://amtoolbox.org/amt-1.4.0/doc/models/zilany2007.php
% #StatusDoc: Good
% #StatusCode: Good
% #Verification: Unknown
% #Requirements: MEX M-Signal
% #Author: Peter L. Sondergaard (2012)
% This file is licensed unter the GNU General Public License (GPL) either
% version 3 of the license, or any later version as published by the Free Software
% Foundation. Details of the GPLv3 can be found in the AMT directory "licences" and
% at <https://www.gnu.org/licenses/gpl-3.0.html>.
% You can redistribute this file and/or modify it under the terms of the GPLv3.
% This file is distributed without any warranty; without even the implied warranty
% of merchantability or fitness for a particular purpose.
if nargin<4
error('%s: Too few input parameters.',upper(mfilename));
end;
% Define input flags
definput.keyvals.flow = 100;
definput.keyvals.fhigh = 16000;
definput.keyvals.numCF = 500;
[flags,kv] = ltfatarghelper({'flow','fhigh','numCF'},definput,varargin);
stim = resample(stim,fsmod,fsstim); % stim fs = mod fs
idnz = stim ~= 0; % ignore pauses
lvlref = 20*log10(1/20e-6); % Reference level: 20 micro Pa
stim(idnz) = scaletodbspl(stim(idnz),stim_level,'dboffset',lvlref); % Calibrate level
% stim must be a row vector
if size(stim,2) == 1
stim = stim';
end
% location of lowest and highest centre frequency
xlo = (1.0/0.06)*log10((kv.flow/165.4)+0.88);
xhi = (1.0/0.06)*log10((kv.fhigh/165.4)+0.88);
% equal spaced distances on the BM
vX = linspace(xlo,xhi,kv.numCF);
% and the resulting frequency vector
vFreq = 165.4*(10.^(0.06*vX)-0.88);
% resolution in the time domain
tdres = 1/fsmod;
% spontaneous rate in sp/sec
spont = 50;
% time in sec between stimulus repetitions - NOTE should be equal to or
% longer than the duration of the stimulus
reptime = (2*length(stim)+1)/fsmod;
% cohc is the ohc scaling factor: 1 is normal OHC function; 0 is complete
% OHC dysfunction
cohc = 1;
% cihc is the ihc scaling factor: 1 is normal IHC function; 0 is complete
% IHC dysfunction
cihc = 1;
% Call AN model - loop over the 500 fibers tuned to different CFs
for jj = 1:kv.numCF
% Call AN model (mex'ed C model)
[timeout,meout,c1filterout,c2filterout,c1vihc,c2vihc,vihc,synout,psth500k] ...
= comp_zilany2007(stim,...
vFreq(jj),...
1,...
tdres,...
reptime,...
cohc, ...
cihc,...
spont);
% Use the output of the synapse stage of the AN model.
ANdata(jj,:) = synout;
end
timeout = timeout.';
meout = meout.';
c1filterout = c1filterout.';
c2filterout = c2filterout.';
c1vihc = c1vihc.';
c2vihc = c2vihc.';
vihc = vihc.';
psth500k = psth500k.';
ANdata = ANdata.';