Mercurial > hg > camir-aes2014
view toolboxes/MIRtoolbox1.3.2/somtoolbox/som_kmeans.m @ 0:e9a9cd732c1e tip
first hg version after svn
| author | wolffd |
|---|---|
| date | Tue, 10 Feb 2015 15:05:51 +0000 |
| parents | |
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function [codes,clusters,err] = som_kmeans(method, D, k, epochs, verbose) % SOM_KMEANS K-means algorithm. % % [codes,clusters,err] = som_kmeans(method, D, k, [epochs], [verbose]) % % Input and output arguments ([]'s are optional): % method (string) k-means algorithm type: 'batch' or 'seq' % D (matrix) data matrix % (struct) data or map struct % k (scalar) number of centroids % [epochs] (scalar) number of training epochs % [verbose] (scalar) if <> 0 display additonal information % % codes (matrix) codebook vectors % clusters (vector) cluster number for each sample % err (scalar) total quantization error for the data set % % See also KMEANS_CLUSTERS, SOM_MAKE, SOM_BATCHTRAIN, SOM_SEQTRAIN. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Function has been renamed by Kimmo Raivio, because matlab65 also have % kmeans function 1.10.02 %% input arguments if isstruct(D), switch D.type, case 'som_map', data = D.codebook; case 'som_data', data = D.data; end else data = D; end [l dim] = size(data); if nargin < 4 | isempty(epochs) | isnan(epochs), epochs = 100; end if nargin < 5, verbose = 0; end %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% action rand('state', sum(100*clock)); % init rand generator lr = 0.5; % learning rate for sequential k-means temp = randperm(l); centroids = data(temp(1:k),:); res = zeros(k,l); clusters = zeros(1, l); if dim==1, [codes,clusters,err] = scalar_kmeans(data,k,epochs); return; end switch method case 'seq', len = epochs * l; l_rate = linspace(lr,0,len); order = randperm(l); for iter = 1:len x = D(order(rem(iter,l)+1),:); dx = x(ones(k,1),:) - centroids; [dist nearest] = min(sum(dx.^2,2)); centroids(nearest,:) = centroids(nearest,:) + l_rate(iter)*dx(nearest,:); end [dummy clusters] = min(((ones(k, 1) * sum((data.^2)', 1))' + ... ones(l, 1) * sum((centroids.^2)',1) - ... 2.*(data*(centroids')))'); case 'batch', iter = 0; old_clusters = zeros(k, 1); while iter<epochs [dummy clusters] = min(((ones(k, 1) * sum((data.^2)', 1))' + ... ones(l, 1) * sum((centroids.^2)',1) - ... 2.*(data*(centroids')))'); for i = 1:k f = find(clusters==i); s = length(f); if s, centroids(i,:) = sum(data(f,:)) / s; end end if iter if sum(old_clusters==clusters)==0 if verbose, fprintf(1, 'Convergence in %d iterations\n', iter); end break; end end old_clusters = clusters; iter = iter + 1; end [dummy clusters] = min(((ones(k, 1) * sum((data.^2)', 1))' + ... ones(l, 1) * sum((centroids.^2)',1) - ... 2.*(data*(centroids')))'); otherwise, fprintf(2, 'Unknown method\n'); end err = 0; for i = 1:k f = find(clusters==i); s = length(f); if s, err = err + sum(sum((data(f,:)-ones(s,1)*centroids(i,:)).^2,2)); end end codes = centroids; return; %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function [y,bm,qe] = scalar_kmeans(x,k,maxepochs) nans = ~isfinite(x); x(nans) = []; n = length(x); mi = min(x); ma = max(x) y = linspace(mi,ma,k)'; bm = ones(n,1); bmold = zeros(n,1); i = 0; while ~all(bm==bmold) & i<maxepochs, bmold = bm; [c bm] = histc(x,[-Inf; (y(2:end)+y(1:end-1))/2; Inf]); y = full(sum(sparse(bm,1:n,x,k,n),2)); zh = (c(1:end-1)==0); y(~zh) = y(~zh)./c(~zh); inds = find(zh)'; for j=inds, if j==1, y(j) = mi; else y(j) = y(j-1) + eps; end, end i=i+1; end if i==maxepochs, [c bm] = histc(x,[-Inf; (y(2:end)+y(1:end-1))/2; Inf]); end if nargout>2, qe = sum(abs(x-y(bm)))/n; end if any(nans), notnan = find(~nans); n = length(nans); y = full(sparse(notnan,1,y ,n,1)); y(nans) = NaN; bm = full(sparse(notnan,1,bm,n,1)); bm(nans) = NaN; if nargout>2, qe = full(sparse(notnan,1,qe,n,1)); qe(nans) = NaN; end end return;