1 | %KANNC 1-Nearest Neighbor Classifier using ANN Matlab Wrapper |
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2 | % |
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3 | % W = KANNC(A,,K,OPTION) |
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4 | % |
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5 | % INPUT |
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6 | % A Dataset |
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7 | % K Number of desired neighbours |
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8 | % OPTION Options for ANNQUERY |
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9 | % |
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10 | % OUTPUT |
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11 | % W NN classifier using the ANN Query package |
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12 | % |
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13 | % DESCRIPTION |
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14 | % This is the nearest neighbor implementation for PRTools using the ANN |
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15 | % Matlab Wrapper package. It should be in the path. If needed download it |
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16 | % http://webscripts.softpedia.com/scriptDownload/ANN-MATLAB-Wrapper-Download-33976.html |
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17 | % |
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18 | % SEE ALSO |
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19 | % MAPPINGS, DATASETS, ANNQUERY, KNNC |
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20 | |
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21 | % Copyright: R.P.W. Duin, r.p.w.duin@prtools.org |
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22 | % Faculty EWI, Delft University of Technology |
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23 | % P.O. Box 5031, 2600 GA Delft, The Netherlands |
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24 | |
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25 | |
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26 | function out = kannc(a,knn,opt) |
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27 | |
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28 | prtrace(mfilename); |
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29 | |
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30 | annquerycheck; |
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31 | name = 'KANNC'; |
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32 | % No input data, return an untrained classifier. |
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33 | if nargin < 3, opt = []; end |
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34 | if nargin < 2, knn = 1; end |
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35 | if (nargin == 0) | (isempty(a)) |
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36 | out = mapping(mfilename,'untrained',{knn,opt}); |
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37 | out = setname(out,name); |
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38 | elseif isdataset(a) & ~ismapping(knn) % training |
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39 | islabtype(a,'crisp'); |
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40 | isvaldfile(a,1,2); % at least 1 object per class, 2 classes |
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41 | a = testdatasize(a); |
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42 | a = testdatasize(a,'objects'); |
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43 | a = seldat(a); % get labeled objects only |
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44 | [m,k,c] = getsize(a); |
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45 | v.data = a; |
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46 | v.knn = knn; |
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47 | v.opt = opt; |
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48 | out = mapping(mfilename,'trained',v,getlablist(a),k,c); |
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49 | out = setname(out,name); |
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50 | elseif nargin == 2 & ismapping(knn) % execution |
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51 | % to avoid confusion, rename trained mapping |
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52 | w = knn; |
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53 | v = +w; % get datafield |
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54 | [k,c] = size(w); |
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55 | nlab = getnlab(v.data); |
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56 | J = annquery(+v.data',(+a)',v.knn)'; |
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57 | n = size(J,1); % no of test objects |
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58 | J = nlab(J); |
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59 | if size(J,2) == 1 |
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60 | out = zeros(2,n); |
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61 | out([1:2:n*2]+J'-1) = ones(1,n); |
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62 | out = out'; |
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63 | else |
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64 | out = hist(J',[1:c])'; |
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65 | end |
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66 | % Use Bayes estimators for posteriors |
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67 | out = (out+ones(size(out,1),c))/(v.knn+c); |
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68 | out = setdat(a,out,w); |
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69 | else |
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70 | error('Illegal input') |
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71 | end |
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72 | |
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73 | |
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