function [fLeftRelevant, LLeftRelevant, fRightRelevant, LRightRelevant] = moore2016_spectrum(s, Fs, dBMax, wHann, vLimitingIndizes)
%MOORE2016_SPECTRUM calculate the spectrum for an audio segment of 2048x2 samples
%
% Usage: [fLeftRelevant, LLeftRelevant, fRightRelevant, LRightRelevant] = moore2016_spectrum(s, Fs, dBMax, wHann, vLimitingIndizes)
%
% Input parameters:
% s : input signal
% Fs : sampling frequency [Hz]
% dBMax : maximum dB
% wHann : matrix with window coefficients in columns
% vLimitingIndizes : indices for fft assembly
%
% Output parameters:
% fLeftRelevant : frequency of relevant components left ear
% LLeftRelevant : level of relevant components left ear
% fRightRelevant : frequency of relevant components right ear
% LRightRelevant : level of relevant components right ear
%
%
% This code calculates the spectrum of the input signal as required by the
% loudness model moore2016 in the version for TVL 2016 based on ANSI S3.4-2007
% and Moore & Glasberg (2007).
%
% It returns only the relevant components, i.e. components that have at least -30 dB
% SPL and at least 60 dB less than the maximum component. Overall, 4 vectors are
% returned: frequency and level for the left ear, and same for the right ear.
% dBMax is the rms level of a full scale sinusoid hann windows and limiting indizes
% for the 6 FFTs are passed so they are calculated only once.
% Much is done with intensity rather than level so that nonzeros() works
% correctly without the need of excemptions.
%
% Url: http://amtoolbox.org/amt-1.4.0/doc/modelstages/moore2016_spectrum.php
% #StatusDoc: Good
% #StatusCode: Good
% #Verification: Unknown
% #Requirements: M-Signal
% #Author: Josef Schlittenlacher (2018): original code
% #Author: Clara Hollomey (2021): integration in the AMT
% 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.
npts = Fs / 1000 * 64; % points for FFT, 2048
f = Fs*(0:(npts/2))/npts; % frequency scale for fft
% dHannCorrection = 1 / ( sum(hann(npts).^2)/npts ); % correction factor of intensity for hann window
dHannCorrection = 10^(3.32/10); % actual filter correction
%% window the signal
ws = zeros(npts,6,2);
for i = 1:6
for j = 1:2
ws(:,i,j) = s(:,j) .* wHann(:,i);
end
end
%% fft (6 ffts and combination)
ICombinedFft = zeros(length(f),2);
for i = 1:6
for j = 1:2
Y = fft( ws(:,i,j) );
S = abs(Y/npts);
S = S(1:npts/2+1);
S(2:end-1) = 2*S(2:end-1); % amplitudes of sine components
I = S .^2; % intensity of components
I = I * dHannCorrection;
I = I * 2^(i-1); % correction for window length
ICombinedFft( vLimitingIndizes(i):( vLimitingIndizes(i+1) ), j ) = I( vLimitingIndizes(i):( vLimitingIndizes(i+1) ) ) * 10^(dBMax/10) ;
end
end
%% take only components which are higher than max component level minus 60dB and higher than -30 dB SPL
dMaxI = max(max(ICombinedFft));
if ( dMaxI < 1000 ) % discard components < -30 dB SPL in any case by setting virtual max component of 30 dB if max is smaller than that
dMaxI = 1000;
end
mIndizesOfRelevantL = ICombinedFft > ( dMaxI / 10^6 ); % only components at least
fnoDC= f(2:end); % discard DC component
mIndizesOfRelevantL = mIndizesOfRelevantL(2:end,:);
ICombinedFft = ICombinedFft(2:end,:);
ILeftRelevant = ICombinedFft(:,1) .* mIndizesOfRelevantL(:,1);
IRightRelevant = ICombinedFft(:,2) .* mIndizesOfRelevantL(:,2);
fLeftRelevant = fnoDC(:) .* mIndizesOfRelevantL(:,1);
fRightRelevant = fnoDC(:) .* mIndizesOfRelevantL(:,2);
LLeftRelevant = 10*log10( nonzeros( ILeftRelevant ) );
LRightRelevant = 10*log10( nonzeros( IRightRelevant ) );
fLeftRelevant = nonzeros( fLeftRelevant );
fRightRelevant = nonzeros( fRightRelevant );