THE AUDITORY MODELING TOOLBOX

Applies to version: 1.4.0

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demo_lopezpoveda2001 - Widening of filters in the lopezpoveda2001

Program code:

%demo_lopezpoveda2001  Widening of filters in the lopezpoveda2001
%
%   This script displays three auditory spectrograms generated using the
%   lopezpoveda2001. The input signal is the same, just presented at three different
%   levels. The purpose is to visualize the broading of the auditory
%   filters at higher input levels.
%
%   Figure 1: Greasy at 50 dB
%
%      This figure shows the lopezpoveda2001 of an input speech signal with a level
%      of 50 dB SPL.
%
%   Figure 2: Greasy at 70 dB
%
%      This figure shows the lopezpoveda2001 of an input speech signal with a level
%      of 50 dB SPL.
%
%   Figure 3: Greasy at 90 dB
%
%      This figure shows the lopezpoveda2001 of an input speech signal with a level
%      of 50 dB SPL.
%
%   See also: lopezpoveda2001
%
%   References:
%     E. Lopez-Poveda and R. Meddis. A human nonlinear cochlear filterbank.
%     J. Acoust. Soc. Am., 110:3107--3118, 2001.
%     
%
%   Url: http://amtoolbox.org/amt-1.4.0/doc/demos/demo_lopezpoveda2001.php


%   #Author: Robert Baumgartner (2017)

% 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. 


fs=32000;
siglen=7000;
% Increase the length of the test signal to add room for the filter delay
insig=postpad(greasy,siglen);

% The three levels in dB
lvl1=50;
lvl2=70;
lvl3=90;

% Set the dynamic range for plotting.
dynrange=30;

%% lopezpoveda2001 
% Change 'bwmul' to generate more channels, this make the visualization
% pretty.
[outsig1, fc1] = lopezpoveda2001(scaletodbspl(insig,lvl1, 100), fs, 'bwmul',.1);
[outsig2, fc2] = lopezpoveda2001(scaletodbspl(insig,lvl2, 100), fs, 'bwmul',.1);
[outsig3, fc3] = lopezpoveda2001(scaletodbspl(insig,lvl3, 100), fs, 'bwmul',.1);

%% 'haircell' envelope extraction
outsig1 = ihcenvelope(outsig1,fs,'ihc_dau1996');
outsig2 = ihcenvelope(outsig2,fs,'ihc_dau1996');
outsig3 = ihcenvelope(outsig3,fs,'ihc_dau1996');

%% Lowpass filter the output for visualization and convert to dB
[mlp_b,mlp_a] = butter(2,50/(fs/2));
outsig1 = abs(filter(mlp_b,mlp_a,outsig1));
outsig2 = abs(filter(mlp_b,mlp_a,outsig2));
outsig3 = abs(filter(mlp_b,mlp_a,outsig3));

%% Visualization
ftz=20;

figure(1);
plotfilterbank(outsig1,1,fc1,fs,dynrange,'audtick');
xlabel('Time (s)','fontsize',ftz,'fontname','arial')
ylabel('Frequency (Hz)','fontsize',ftz)
colormap(flipud(bone));

figure(2);
plotfilterbank(outsig2,1,fc1,fs,dynrange,'audtick');
colormap(flipud(bone));

figure(3);
plotfilterbank(outsig3,1,fc1,fs,dynrange,'audtick');
colormap(flipud(bone));