Mercurial > hg > camir-aes2014

annotate toolboxes/MIRtoolbox1.3.2/AuditoryToolbox/CorrelogramFrame.m @ 0:e9a9cd732c1e tip

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first hg version after svn
author wolffd
date Tue, 10 Feb 2015 15:05:51 +0000
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wolffd@0 1 % pic = CorrelogramFrame(data, picWidth, start, winLen)
wolffd@0 2 % Compute one frame of a correlogram. The input data is a
wolffd@0 3 % two-dimensional array of cochlear data, each row representing
wolffd@0 4 % firing probabilities from one cochlear channel. The output
wolffd@0 5 % picture is a two dimensional array of width "picWidth".
wolffd@0 6 %
wolffd@0 7 % The correlogram is computed with autocorrelation using
wolffd@0 8 % data from the input array. For each channel, the data from
wolffd@0 9 % is extracted starting at column "start" and extending for
wolffd@0 10 % "winLength" time steps.
wolffd@0 11
wolffd@0 12 % (c) 1998 Interval Research Corporation
wolffd@0 13
wolffd@0 14 function pic = CorrelogramFrame(data, picWidth, start, winLen)
wolffd@0 15
wolffd@0 16 if nargin < 2
wolffd@0 17 disp('Syntax: pic=CorrelogramFrame(data, picWidth[, start, len])');
wolffd@0 18 return
wolffd@0 19 end
wolffd@0 20
wolffd@0 21 if nargin < 3
wolffd@0 22 start = 1;
wolffd@0 23 end
wolffd@0 24
wolffd@0 25 if nargin < 4
wolffd@0 26 [channels, winLen] = size(data);
wolffd@0 27 end
wolffd@0 28
wolffd@0 29 [channels, dataLen] = size(data);
wolffd@0 30 start = max(1, start);
wolffd@0 31 last = min(dataLen, start+winLen-1);
wolffd@0 32
wolffd@0 33 pic = zeros(channels, picWidth);
wolffd@0 34 fftSize = 2^(nextpow2(max(picWidth, winLen))+1);
wolffd@0 35 % disp(['CorrelogramFrame fftSize is ' int2str(fftSize)]);
wolffd@0 36
wolffd@0 37 a = .54;
wolffd@0 38 b = -.46;
wolffd@0 39 wr = sqrt(64/256);
wolffd@0 40 phi = pi/winLen;
wolffd@0 41 ws = 2*wr/sqrt(4*a*a+2*b*b)*(a + b*cos(2*pi*(0:winLen-1)/winLen + phi));
wolffd@0 42
wolffd@0 43 for i=1:channels
wolffd@0 44 f = zeros(1, fftSize);
wolffd@0 45 % d = zeros(1, winLen);
wolffd@0 46 % d(1:(last-start+1)) = data(i,start:last) .* ws(1:(last-start+1));
wolffd@0 47 % f(1:(winLen/2)) = d(winLen/2+1:winLen);
wolffd@0 48 % f(fftSize-(winLen/2)+1:fftSize) = d(1:min(length(d),winLen/2));
wolffd@0 49 f(1:(last-start+1)) = data(i,start:last) .* ws(1:(last-start+1));
wolffd@0 50 f = fft(f);
wolffd@0 51 f = ifft(f.*conj(f));
wolffd@0 52 pic(i,:) = real(f(1:picWidth));
wolffd@0 53 if pic(i,1) > pic(i,2) & pic(i,1) > pic(i,3)
wolffd@0 54 pic(i,:) = pic(i,:)/sqrt(pic(i,1));
wolffd@0 55 else
wolffd@0 56 pic(i,:) = zeros(1,picWidth);
wolffd@0 57 end
wolffd@0 58 end