Mercurial > hg > camir-aes2014
comparison toolboxes/MIRtoolbox1.3.2/AuditoryToolbox/LyonPassiveEar.m @ 0:e9a9cd732c1e tip
first hg version after svn
| author | wolffd |
|---|---|
| date | Tue, 10 Feb 2015 15:05:51 +0000 |
| parents | |
| children |
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| -1:000000000000 | 0:e9a9cd732c1e |
|---|---|
| 1 function y=LyonPassiveEar(x,sr,df,earQ,stepfactor,differ,agcf,taufactor) | |
| 2 % y=LyonPassiveEar(input, sample_rate, decimation, earQ, stepfactor); | |
| 3 % | |
| 4 % Changes | |
| 5 % Zeroed out the preemphasis channels before doing the AGC. This is needed | |
| 6 % so that cochlear inversion is possible (since we don't have those channels, | |
| 7 % we can't invert their gain.)..... Malcolm 6/26/95 | |
| 8 | |
| 9 % (c) 1998 Interval Research Corporation | |
| 10 | |
| 11 if nargin < 3 | |
| 12 fprintf('Syntax: y=LyonPassiveEar(input, sample_rate, decimation, earQ, stepfactor)\n'); | |
| 13 fprintf(' The input, sample_rate, and decimation parameters are mandatory.\n'); | |
| 14 return; | |
| 15 end | |
| 16 | |
| 17 if df < 1; df = 1; end | |
| 18 if nargin < 4; earQ = 8; end | |
| 19 if nargin < 5; stepfactor = earQ/32; end | |
| 20 if nargin < 6; differ=1; end | |
| 21 if nargin < 7; agcf=1; end | |
| 22 if nargin < 8; taufactor=3; end | |
| 23 | |
| 24 earFilters = DesignLyonFilters(sr, earQ, stepfactor); | |
| 25 | |
| 26 nSamples = length(x); | |
| 27 nOutputSamples = floor(nSamples/df); | |
| 28 [nChannels filterWidth] = size(earFilters); | |
| 29 | |
| 30 sosOutput = zeros(nChannels, df); | |
| 31 sosState = zeros(nChannels, 2); | |
| 32 agcState = zeros(nChannels, 4); | |
| 33 y = zeros(nChannels, nOutputSamples); | |
| 34 | |
| 35 decEps = EpsilonFromTauFS(df/sr*taufactor,sr); | |
| 36 decState = zeros(nChannels, 2); | |
| 37 decFilt = SetGain([0 0 1 -2*(1-decEps) (1-decEps)^2], 1, 0, sr); | |
| 38 | |
| 39 eps1 = EpsilonFromTauFS(.64,sr); | |
| 40 eps2 = EpsilonFromTauFS(.16,sr); | |
| 41 eps3 = EpsilonFromTauFS(.04,sr); | |
| 42 eps4 = EpsilonFromTauFS(.01,sr); | |
| 43 | |
| 44 tar1 = .0032; | |
| 45 tar2 = .0016; | |
| 46 tar3 = .0008; | |
| 47 tar4 = .0004; | |
| 48 | |
| 49 if 0 | |
| 50 fprintf('df=%g, earq=%g, stepfactor=%g, differ=%g\n',df,earQ,stepfactor,differ); | |
| 51 fprintf('agcf=%g, taufactor=%g\n', agcf, taufactor); | |
| 52 [tar1 tar2 tar3 tar4; eps1 eps2 eps3 eps4] | |
| 53 end | |
| 54 | |
| 55 for i=0:nOutputSamples-1 | |
| 56 [sosOutput sosState]= soscascade(x(i*df+1:i*df+df), earFilters, ... | |
| 57 sosState); | |
| 58 output = max(0, sosOutput); %% Half Wave Rectify | |
| 59 output(1) = 0; %% Test Hack to make inversion easier. | |
| 60 output(2) = 0; | |
| 61 if agcf > 0 | |
| 62 [output agcState] = agc(output, [tar1 tar2 tar3 tar4; ... | |
| 63 eps1 eps2 eps3 eps4], ... | |
| 64 agcState); | |
| 65 end | |
| 66 | |
| 67 if differ > 0 | |
| 68 output = [output(1,:);output(1:nChannels-1,:) - ... | |
| 69 output(2:nChannels,:)]; | |
| 70 output = max(0, output); | |
| 71 end | |
| 72 | |
| 73 if df > 1 | |
| 74 [output decState] = sosfilters(output, decFilt, decState); | |
| 75 end | |
| 76 y(:,i+1) = output(:,df); | |
| 77 end | |
| 78 | |
| 79 %y = min(y,2*tar4); | |
| 80 y=y(3:nChannels,:); |