Mercurial > hg > nimfks
view src/matlab/fft2chromamx.m @ 0:c52bc3e8d3ad tip
user: boblsturm
branch 'default'
added README.md
added assets/.DS_Store
added assets/playButton.jpg
added assets/stopButton.png
added assets/swapButton.jpg
added data/.DS_Store
added data/fiveoctaves.mp3
added data/glock2.wav
added data/sinScale.mp3
added data/speech_female.mp3
added data/sweep.wav
added nimfks.m.lnk
added src/.DS_Store
added src/matlab/.DS_Store
added src/matlab/AnalysisCache.m
added src/matlab/CSS.m
added src/matlab/DataHash.m
added src/matlab/ExistsInCache.m
added src/matlab/KLDivCost.m
added src/matlab/LoadFromCache.m
added src/matlab/SA_B_NMF.m
added src/matlab/SaveInCache.m
added src/matlab/Sound.m
added src/matlab/SynthesisCache.m
added src/matlab/chromagram_E.m
added src/matlab/chromagram_IF.m
added src/matlab/chromagram_P.m
added src/matlab/chromsynth.m
added src/matlab/computeSTFTFeat.m
added src/matlab/controller.m
added src/matlab/decibelSliderReleaseCallback.m
added src/matlab/drawClickCallBack.m
added src/matlab/fft2chromamx.m
added src/matlab/hz2octs.m
added src/matlab/ifgram.m
added src/matlab/ifptrack.m
added src/matlab/istft.m
added src/matlab/nimfks.fig
added src/matlab/nimfks.m
added src/matlab/nmfFn.m
added src/matlab/nmf_beta.m
added src/matlab/nmf_divergence.m
added src/matlab/nmf_euclidean.m
added src/matlab/prune_corpus.m
added src/matlab/rot_kernel.m
added src/matlab/templateAdditionResynth.m
added src/matlab/templateDelCb.m
added src/matlab/templateScrollCb.m
| author | boblsturm |
|---|---|
| date | Sun, 18 Jun 2017 06:26:13 -0400 |
| parents | |
| children |
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function wts = fft2chromamx(nfft,nbins,sr,A440,ctroct,octwidth) % wts = fft2chromamx(nfft,nbins,sr,A440,ctroct,octwidth) % Create a wts matrix to convert FFT to Chroma % A440 is optional ref frq for A % ctroct, octwidth specify a dominance window - Gaussian % weighting centered on ctroct (in octs, re A0 = 27.5Hz) and % with a gaussian half-width of octwidth. Defaults to % halfwidth = inf i.e. flat. % 2006-06-29 dpwe@ee.columbia.edu if nargin < 2; nbins = 12; end if nargin < 3; sr = 22050; end if nargin < 4; A440 = 440; end if nargin < 5; ctroct = 5; end if nargin < 6; octwidth = 0; end wts = zeros(nbins, nfft); fftfrqbins = nbins*hz2octs([1:(nfft-1)]/nfft*sr,A440); % make up a value for the 0 Hz bin = 1.5 octaves below bin 1 % (so chroma is 50% rotated from bin 1, and bin width is broad) fftfrqbins = [fftfrqbins(1)-1.5*nbins,fftfrqbins]; binwidthbins = [max(1, fftfrqbins(2:nfft) - fftfrqbins(1:(nfft-1))), 1]; D = repmat(fftfrqbins,nbins,1) - repmat([0:(nbins-1)]',1,nfft); nbins2 = round(nbins/2); % Project into range -nbins/2 .. nbins/2 % add on fixed offset of 10*nbins to ensure all values passed to rem are +ve D = rem(D + nbins2 + 10*nbins, nbins) - nbins2; % Gaussian bumps - 2*D to make them narrower wts = exp(-0.5*(2*D./repmat(binwidthbins,nbins,1)).^2); % normalize each column wts = wts./repmat(sqrt(sum(wts.^2)),nbins,1); % remove aliasing columns wts(:,[(nfft/2+2):nfft]) = 0; % Maybe apply scaling for fft bins if octwidth > 0 wts = wts.*repmat(exp(-0.5*(((fftfrqbins/nbins - ctroct)/octwidth).^2)), nbins, 1); end %wts = binwidthbins; %wts = fftfrqbins; function octs = hz2octs(freq, A440) % octs = hz2octs(freq, A440) % Convert a frequency in Hz into a real number counting % the octaves above A0. So hz2octs(440) = 4.0 % Optional A440 specifies the Hz to be treated as middle A (default 440). % 2006-06-29 dpwe@ee.columbia.edu for fft2chromamx %if nargin < 2; A440 = 440; end % A4 = A440 = 440 Hz, so A0 = 440/16 Hz octs = log(freq./(A440/16))./log(2);