1 | %HAUSDMA Asymmetric Hausdorff and modified Hausdorff distance between datafiles of image blobs |
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2 | % |
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3 | % [DH,DM] = HAUSDMA(A,B) |
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4 | % |
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5 | % INPUT |
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6 | % A Datafile of NA binary images |
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7 | % B Datafileof of NB binary images |
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8 | % |
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9 | % OUTPUT |
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10 | % DH NAxNB Hausdorff distance matrix |
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11 | % DM NAxNB Modified Hausdorff distance matrix |
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12 | % |
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13 | % DESCRIPTION |
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14 | % Computes a Hausdorff distance matrix DH and a modified Hausdorff distance |
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15 | % matrix DM between the datafiles of binary images A and B. |
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16 | % Preferably, NA <= NB (faster computation). |
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17 | % Progress is reported in fid (fid = 1: on the sreeen). |
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18 | % |
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19 | % LITERATURE |
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20 | % M.-P. Dubuisson and A.K. Jain, "Modified Hausdorff distance for object matching", |
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21 | % International Conference on Pattern Recognition, vol. 1, 566-568, 1994. |
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22 | % |
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23 | |
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24 | % Copyright: R.P.W. Duin, r.duin@ieee.org |
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25 | % Faculty of EWI, Delft University of Technology |
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26 | |
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27 | |
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28 | function [dh,dm] = hausdm(A,B) |
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29 | |
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30 | |
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31 | na = size(A,1); |
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32 | nb = size(B,1); |
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33 | dh = zeros(na,nb); |
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34 | dm = zeros(na,nb); |
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35 | s1 = sprintf('Hausdorff distances from %i objects: ',na); |
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36 | prwaitbar(na,s1) |
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37 | A = data2im(A); |
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38 | B = data2im(B); |
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39 | for i=1:na |
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40 | prwaitbar(na,i,[s1 int2str(i)]); |
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41 | a = A{i}; |
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42 | if ~isempty(a) |
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43 | a = bord(a,0); |
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44 | end |
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45 | ca = contourc(a,[0.5,0.5]); |
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46 | J = find(ca(1,:) == 0.5); |
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47 | ca(:,[J J+1]) =[]; |
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48 | ca = ca - repmat([1.5;1.5],1,size(ca,2)); |
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49 | ca = ca/max(ca(:)); |
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50 | ca = ca - repmat(max(ca,[],2)/2,1,size(ca,2)); |
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51 | %s2 = sprintf('Hausdorff distances to %i objects: ',nb); |
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52 | %prwaitbar(nb,s2) |
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53 | for j = 1:nb |
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54 | %prwaitbar(na,j,[s2 int2str(j)]); |
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55 | b = B{j}; |
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56 | if ~isempty(b) |
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57 | b = bord(b,0); |
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58 | end |
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59 | cb = contourc(b,[0.5,0.5]); |
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60 | J = find(cb(1,:) == 0.5); |
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61 | cb(:,[J J+1]) =[]; |
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62 | cb = cb - repmat([1.5;1.5],1,size(cb,2)); |
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63 | cb = cb/max(cb(:)); |
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64 | cb = cb - repmat(max(cb,[],2)/2,1,size(cb,2)); |
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65 | dab = sqrt(distm(ca',cb')); |
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66 | dh(i,j) = max(min(dab)); |
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67 | dm(i,j) = mean(min(dab)); |
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68 | end |
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69 | %prwaitbar(0); |
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70 | end |
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71 | prwaitbar(0); |
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72 | |
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