Mercurial > hg > camir-aes2014
diff toolboxes/FullBNT-1.0.7/netlabKPM/kmeans_demo.m @ 0:e9a9cd732c1e tip
first hg version after svn
| author | wolffd |
|---|---|
| date | Tue, 10 Feb 2015 15:05:51 +0000 |
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| children |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/toolboxes/FullBNT-1.0.7/netlabKPM/kmeans_demo.m Tue Feb 10 15:05:51 2015 +0000 @@ -0,0 +1,76 @@ +function kmeans_demo() + +% Generate T points from K=5 1D clusters, and try to recover the cluster +% centers using k-means. +% Requires BNT, netlab and the matlab stats toolbox v4. + +K = 5; +ndim = 1; +true_centers = 1:K; +sigma = 1e-6; +T = 100; +% data(t,:) is the t'th data point +data = zeros(T, ndim); +% ndx(t) = i means the t'th data point is sample from cluster i +%ndx = sample_discrete(normalise(ones(1,K))); +ndx = [1*ones(1,20) 2*ones(1,20) 3*ones(1,20) 4*ones(1,20) 5*ones(1,20)]; +for t=1:T + data(t) = sample_gaussian(true_centers(ndx(t)), sigma, 1); +end +plot(1:T, data, 'x') + + + +% set the centers randomly from Gauss(0) +mix = gmm(ndim, K, 'spherical'); +h = plot_centers_as_lines(mix, [], T); + +if 0 +% Place initial centers at K data points chosen at random, but add some noise +choose_ndx = randperm(T); +choose_ndx = choose_ndx(1:K); +init_centers = data(choose_ndx) + sample_gaussian(0, 0.1, K); +mix.centres = init_centers; +h = plot_centers_as_lines(mix, h, T); +end + +if 0 +% update centers using netlab k-means +options = foptions; +niter = 10; +options(14) = niter; +mix = gmminit(mix, data, options); +h = plot_centers_as_lines(mix, h, T); +end + +% use matlab stats toolbox k-means with multiple restarts +nrestarts = 5; +[idx, centers] = kmeans(data, K, 'replicates', nrestarts, ... + 'emptyAction', 'singleton', 'display', 'iter'); +mix.centres = centers; +h = plot_centers_as_lines(mix, h, T); + +% fine tune with EM; compute covariances of each cluster +options = foptions; +niter = 20; +options(1) = 1; % display cost fn at each iter +options(14) = niter; +mix = gmmem(mix, data, options); +h = plot_centers_as_lines(mix, h, T); + +%%%%%%%%% +function h = plot_centers_as_lines(mix, h, T) + +K = mix.ncentres; +hold on +if isempty(h) + for k=1:K + h(k)=line([0 T], [mix.centres(k) mix.centres(k)]); + end +else + for k=1:K + set(h(k), 'xdata', [0 T], 'ydata', [mix.centres(k) mix.centres(k)]); + end +end +hold off +