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comparison toolboxes/MIRtoolbox1.3.2/MIRToolbox/mircluster.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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-1:000000000000 0:e9a9cd732c1e
1 function [a d] = mircluster(a,varargin)
2 % c = mircluster(a,f) clusters the segments in the audio sequence(s)
3 % contained in the audio object a, along the analytic feature(s)
4 % f, using the k-means strategy. Multiple analytic features have to
5 % be grouped into one array of cells.
6 % Example:
7 % sg = mirsegment(a);
8 % mircluster(sg, mirmfcc(sg))
9 % mircluster(sg, {mirmfcc(sg), mircentroid(sg)})
10 % c = mircluster(d) clusters the frame-decomposed data d into groups
11 % using K-means clustering.
12 % Example:
13 % cc = mirmfcc(a,'Frame');
14 % mircluster(cc)
15 % Optional argument:
16 % mircluster(...,n) indicates the maximal number of clusters.
17 % Default value: n = 2.
18 % mircluster(...,'Runs',r) indicates the maximal number of runs.
19 % Default value: r = 5.
20 %
21 % Requires SOM Toolbox (included in the MIRtoolbox distribution).
22
23
24 nruns.key = 'Runs';
25 nruns.type = 'Integer';
26 nruns.default = 5;
27 option.nruns = nruns;
28
29 nclust.position = 2;
30 nclust.type = 'Integer';
31 nclust.default = 2;
32 option.nclust = nclust;
33
34 specif.option = option;
35
36 specif.nochunk = 1;
37
38 d = a;
39 if isa(a,'mirdesign')
40 if not(get(a,'Eval'))
41 % During bottom-up construction of the general design
42
43 [unused option] = miroptions(@mircluster,a,specif,varargin);
44 type = get(a,'Type');
45 a = mirdesign(@mircluster,a,option,{},struct,type);
46 a = set(a,'NoChunk',1);
47 else
48 % During top-down evaluation initiation
49
50 e = evaleach(a);
51 if iscell(e)
52 e = e{1};
53 end
54 a = mircluster(e,varargin{:});
55 end
56 else
57 if not(isa(a,'mirdata'))
58 mirerror('mircluster','The input should be either frame- or segment-decomposed.');
59 end
60
61 if isempty(varargin) || (not(isa(varargin{1},'mirdata') || ...
62 (iscell(varargin{1}) && ...
63 isa(varargin{1}{1},'mirdata'))))
64 % mircluster version for frame-decomposed data:
65 % frames are clustered into groups using K-means clustering.
66 [unused option] = miroptions(@mircluster,a,specif,varargin);
67 da = get(a,'Data');
68 lva = length(da); % Number of audio files in the audio object.
69 c = cell(1,lva);
70 display('Clustering frames...');
71 if mirwaitbar
72 handle = waitbar(0,'Clustering frames...');
73 else
74 handle = 0;
75 end
76 for j = 1:lva % For each audio file,...
77 va = []; % Data transmitted to the kmeans_cluster function.
78 v = da{j};
79 if iscell(v)
80 v = uncell(v,-Inf); %v{1};
81 end
82 if size(v,4)>1
83 v(end+1:2*end,:,:,1) = v(:,:,:,2);
84 v(:,:,:,2) = [];
85 end
86 % Standardization
87 %stv = std(v,0,2);
88 %stv(find(stv == 0)) = 1;
89 va(end+1:end+size(v,1),:,:) = v;%...
90 %(v - repmat(mean(v,2),[1 size(v,2) ])) ...
91 %./ repmat(stv,[1 size(v,2) ]);
92 if isa(a,'mirscalar')
93 m = get(a,'Mode');
94 if not(isempty(m))
95 m = m{j};
96 val = [];
97 for l = 1:nseg
98 vl = m{l};
99 if iscell(vl)
100 vl = vl{1};
101 end
102 val(:,l) = vl;
103 end
104 stv = std(val,0,2);
105 stv(find(stv == 0)) = 1;
106 va(end+1:end+size(val,1),:) = ...
107 (val - repmat(mean(val,2),[1 size(val,2) ])) ...
108 ./ repmat(stv,[1 size(val,2) ]);
109 end
110 end
111 if size(va,3)>1
112 mel = 1;
113 va = reshape(va,size(va,2),size(va,3))';
114 else
115 mel = 0;
116 end
117 [cc, p, err, ind] = kmeans_clusters(va',option.nclust,option.nruns);
118 [minind select] = min(ind);
119 c{j}.centr = cc{select}';
120 c{j}.index = p{select};
121 c{j}.weight = zeros(1,size(cc{select},1));
122 c{j}.covar = zeros(size(cc{select}'));
123 ii = 1;
124 for i = 1:size(c{j}.centr,2)
125 clus = va(:,c{j}.index == ii);
126 if isempty(clus)
127 higher = find(c{j}.index > ii);
128 c{j}.index(higher) = c{j}.index(higher)-1;
129 c{j}.centr(:,ii) = [];
130 c{j}.weight(ii) = [];
131 c{j}.covar(:,ii) = [];
132 else
133 c{j}.weight(ii) = size(clus,2)/size(va,2);
134 if c{j}.weight(ii) == 0
135 pause
136 end
137 c{j}.covar(:,ii) = mean((clus'-ones(1,size(clus,1))*c{j}.centr(:,ii)).^2);
138 ii = ii+1;
139 end
140 end
141 if handle
142 waitbar(j/lva,handle);
143 end
144 end
145 if handle
146 delete(handle)
147 end
148 a = set(a,'Clusters',c);
149 else
150 % mircluster version for segmented audio:
151 % segments are clustered into groups using K-means clustering.
152 da = varargin{1};
153 varargin(1) = [];
154 [unused option] = miroptions(@mircluster,a,specif,varargin);
155 display('Clustering segments...');
156 if isa(da,'mirdata') || (iscell(da) && isa(da{1},'mirdata'))
157 if not(iscell(da))
158 da = {da};
159 end
160 vala = get(a,'Data'); % Data contained in the audio object a.
161 lva = length(vala); % Number of audio files in the audio object.
162 clus = cell(1,lva);
163 for j = 1:lva % For each audio file,...
164 va = []; % Data transmitted to the kmeans_cluster function.
165 nseg = length(vala{j}); % Number of segments in the audio file.
166 for i = 1:length(da) % For each analytic feature,...
167 v = get(da{i},'Data');
168 v = v{j};
169 if iscell(v)
170 v = uncell(v,-Inf); %v{1};
171 end
172 val = [];
173 if size(v,4)>1
174 v(end+1:2*end,:,:,1) = v(:,:,:,2);
175 v(:,:,:,2) = [];
176 end
177
178 % Standardization
179 stv = std(v,0,2);
180 stv(find(stv == 0)) = 1;
181 va(end+1:end+size(v,1),:) = ...
182 (v - repmat(mean(v,2),[1 size(v,2) ])) ...
183 ./ repmat(stv,[1 size(v,2) ]);
184 if isa(da{i},'mirscalar')
185 m = get(da{i},'Mode');
186 if not(isempty(m))
187 m = m{j};
188 val = [];
189 for l = 1:nseg
190 vl = m{l};
191 if iscell(vl)
192 vl = vl{1};
193 end
194 val(:,l) = vl;
195 end
196 stv = std(val,0,2);
197 stv(find(stv == 0)) = 1;
198 va(end+1:end+size(val,1),:) = ...
199 (val - repmat(mean(val,2),[1 size(val,2) ])) ...
200 ./ repmat(stv,[1 size(val,2) ]);
201 end
202 end
203
204 end
205 [cc, p, err, ind] = kmeans_clusters(va',min(option.nclust,nseg),option.nruns);
206 clus{j} = p{end};
207 end
208 a = set(a,'Clusters',clus);
209 t = get(a,'Time');
210 fp = get(a,'FramePos');
211 for j = 1:lva % For each audio file,...
212 aj = vala{j};
213 tj = t{j};
214 fpj = fp{j};
215 clj = clus{j};
216 k = 2;
217 while k <= length(aj)
218 if clj(k) == clj(k-1)
219 aj{k-1} = [aj{k-1};aj{k}];
220 aj(k) = [];
221 tj{k-1} = [tj{k-1};tj{k}];
222 tj(k) = [];
223 fpj{k-1} = [fpj{k-1}(1);fpj{k}(2)];
224 fpj(k) = [];
225 clj(k) = [];
226 k = k-1;
227 end
228 k = k+1;
229 end
230 vala{j} = aj;
231 t{j} = tj;
232 fp{j} = fpj;
233 cl{j} = clj;
234 end
235 a = set(a,'Data',vala,'Time',t,'FramePos',fp,'Clusters',cl);
236 end
237 end
238 end