Mercurial > hg > camir-aes2014

comparison toolboxes/MIRtoolbox1.3.2/somtoolbox/som_kmeans.m @ 0:e9a9cd732c1e tip

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
first hg version after svn
author wolffd
date Tue, 10 Feb 2015 15:05:51 +0000
parents
children
comparison
equal deleted inserted replaced
-1:000000000000 0:e9a9cd732c1e
1 function [codes,clusters,err] = som_kmeans(method, D, k, epochs, verbose)
2
3 % SOM_KMEANS K-means algorithm.
4 %
5 % [codes,clusters,err] = som_kmeans(method, D, k, [epochs], [verbose])
6 %
7 % Input and output arguments ([]'s are optional):
8 % method (string) k-means algorithm type: 'batch' or 'seq'
9 % D (matrix) data matrix
10 % (struct) data or map struct
11 % k (scalar) number of centroids
12 % [epochs] (scalar) number of training epochs
13 % [verbose] (scalar) if <> 0 display additonal information
14 %
15 % codes (matrix) codebook vectors
16 % clusters (vector) cluster number for each sample
17 % err (scalar) total quantization error for the data set
18 %
19 % See also KMEANS_CLUSTERS, SOM_MAKE, SOM_BATCHTRAIN, SOM_SEQTRAIN.
20
21 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
22 % Function has been renamed by Kimmo Raivio, because matlab65 also have
23 % kmeans function 1.10.02
24 %% input arguments
25
26 if isstruct(D),
27 switch D.type,
28 case 'som_map', data = D.codebook;
29 case 'som_data', data = D.data;
30 end
31 else
32 data = D;
33 end
34 [l dim] = size(data);
35
36 if nargin < 4 | isempty(epochs) | isnan(epochs), epochs = 100; end
37 if nargin < 5, verbose = 0; end
38
39 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
40 %% action
41
42 rand('state', sum(100*clock)); % init rand generator
43
44 lr = 0.5; % learning rate for sequential k-means
45 temp = randperm(l);
46 centroids = data(temp(1:k),:);
47 res = zeros(k,l);
48 clusters = zeros(1, l);
49
50 if dim==1,
51 [codes,clusters,err] = scalar_kmeans(data,k,epochs);
52 return;
53 end
54
55 switch method
56 case 'seq',
57 len = epochs * l;
58 l_rate = linspace(lr,0,len);
59 order = randperm(l);
60 for iter = 1:len
61 x = D(order(rem(iter,l)+1),:);
62 dx = x(ones(k,1),:) - centroids;
63 [dist nearest] = min(sum(dx.^2,2));
64 centroids(nearest,:) = centroids(nearest,:) + l_rate(iter)*dx(nearest,:);
65 end
66 [dummy clusters] = min(((ones(k, 1) * sum((data.^2)', 1))' + ...
67 ones(l, 1) * sum((centroids.^2)',1) - ...
68 2.*(data*(centroids')))');
69
70 case 'batch',
71 iter = 0;
72 old_clusters = zeros(k, 1);
73 while iter<epochs
74
75 [dummy clusters] = min(((ones(k, 1) * sum((data.^2)', 1))' + ...
76 ones(l, 1) * sum((centroids.^2)',1) - ...
77 2.*(data*(centroids')))');
78
79 for i = 1:k
80 f = find(clusters==i);
81 s = length(f);
82 if s, centroids(i,:) = sum(data(f,:)) / s; end
83 end
84
85 if iter
86 if sum(old_clusters==clusters)==0
87 if verbose, fprintf(1, 'Convergence in %d iterations\n', iter); end
88 break;
89 end
90 end
91
92 old_clusters = clusters;
93 iter = iter + 1;
94 end
95
96 [dummy clusters] = min(((ones(k, 1) * sum((data.^2)', 1))' + ...
97 ones(l, 1) * sum((centroids.^2)',1) - ...
98 2.*(data*(centroids')))');
99 otherwise,
100 fprintf(2, 'Unknown method\n');
101 end
102
103 err = 0;
104 for i = 1:k
105 f = find(clusters==i);
106 s = length(f);
107 if s, err = err + sum(sum((data(f,:)-ones(s,1)*centroids(i,:)).^2,2)); end
108 end
109
110 codes = centroids;
111 return;
112
113 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
114
115 function [y,bm,qe] = scalar_kmeans(x,k,maxepochs)
116
117 nans = ~isfinite(x);
118 x(nans) = [];
119 n = length(x);
120 mi = min(x); ma = max(x)
121 y = linspace(mi,ma,k)';
122 bm = ones(n,1);
123 bmold = zeros(n,1);
124 i = 0;
125 while ~all(bm==bmold) & i<maxepochs,
126 bmold = bm;
127 [c bm] = histc(x,[-Inf; (y(2:end)+y(1:end-1))/2; Inf]);
128 y = full(sum(sparse(bm,1:n,x,k,n),2));
129 zh = (c(1:end-1)==0);
130 y(~zh) = y(~zh)./c(~zh);
131 inds = find(zh)';
132 for j=inds, if j==1, y(j) = mi; else y(j) = y(j-1) + eps; end, end
133 i=i+1;
134 end
135 if i==maxepochs, [c bm] = histc(x,[-Inf; (y(2:end)+y(1:end-1))/2; Inf]); end
136 if nargout>2, qe = sum(abs(x-y(bm)))/n; end
137 if any(nans),
138 notnan = find(~nans); n = length(nans);
139 y = full(sparse(notnan,1,y ,n,1)); y(nans) = NaN;
140 bm = full(sparse(notnan,1,bm,n,1)); bm(nans) = NaN;
141 if nargout>2, qe = full(sparse(notnan,1,qe,n,1)); qe(nans) = NaN; end
142 end
143
144 return;
145