Hello, I have the following code and couldn't figure out what I am doing wrong. I am getting the following error,

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Balaji M. Sontakke
Balaji M. Sontakke on 5 Dec 2017
Commented: Balaji M. Sontakke on 9 Dec 2017
%%Matrix dimensions must agree.
%Error in crop4 (line 86) ZTerm=Z.*ROI';
J=imread('3.bmp');
imshow(J)
set(gcf,'position',[1 1 600 600]);
% %binary img
% J=I(:,:,1)>160;
% imshow(J)
% set(gcf,'position',[1 1 600 600]);
%%Thining
% Ridge thining is to eliminate the redundant pixels of ridges till the
% ridges are just one pixel wide.
K=bwmorph(~J,'thin','inf');
imshow(~K)
set(gcf,'position',[1 1 600 600]);
%%Minutiae
% We filter the thinned ridge map by the filter "minutie". "minutie"
% compute the number of one-value of each 3x3 window:
% * if the central is 1 and has only 1 one-value neighbor, then the central
% pixel is a termination.
% * if the central is 1 and has 3 one-value neighbor, then the central
% pixel is a bifurcation.
% * if the central is 1 and has 2 one-value neighbor, then the central
% pixel is a usual pixel.
fun=@minutie;
L = nlfilter(K,[3 3],fun);
%%Termination
LTerm=(L==1);
imshow(LTerm)
LTermLab=bwlabel(LTerm);
propTerm=regionprops(LTermLab,'Centroid');
CentroidTerm=round(cat(1,propTerm(:).Centroid));
imshow(~K)
set(gcf,'position',[1 1 600 600]);
hold on
plot(CentroidTerm(:,1),CentroidTerm(:,2),'ro')
%%Bifurcation
LBif=(L==3);
LBifLab=bwlabel(LBif);
propBif=regionprops(LBifLab,'Centroid','Image');
CentroidBif=round(cat(1,propBif(:).Centroid));
plot(CentroidBif(:,1),CentroidBif(:,2),'go')
D=6;
%Process 1
Distance=DistEuclidian(CentroidBif,CentroidTerm);
SpuriousMinutae=Distance<D;
[i,j]=find(SpuriousMinutae);
CentroidBif(i,:)=[];
CentroidTerm(j,:)=[];
%Process 2
Distance=DistEuclidian(CentroidBif);
SpuriousMinutae=Distance<D;
[i,j]=find(SpuriousMinutae);
CentroidBif(i,:)=[];
%Process 3
Distance=DistEuclidian(CentroidTerm);
SpuriousMinutae=Distance<D;
[i,j]=find(SpuriousMinutae);
CentroidTerm(i,:)=[];
hold off
imshow(~K)
hold on
plot(CentroidTerm(:,1),CentroidTerm(:,2),'ro')
plot(CentroidBif(:,1),CentroidBif(:,2),'go')
hold off
%Suppress extrema minutiae
%Once we defined the ROI, we can suppress minutiae external to this ROI.
[m,n]=size(I(:,:,1));
indTerm=sub2ind([m,n],CentroidTerm(:,1),CentroidTerm(:,2));
Z=zeros(m,n);
Z(indTerm)=1;
ZTerm=Z.*ROI';
[CentroidTermX,CentroidTermY]=find(ZTerm);
indBif=sub2ind([m,n],CentroidBif(:,1),CentroidBif(:,2));
Z=zeros(m,n);
Z(indBif)=1;
ZBif=Z.*ROI';
[CentroidBifX,CentroidBifY]=find(ZBif);
imshow(I)
hold on
plot(CentroidTermX,CentroidTermY,'ro','linewidth',2)
plot(CentroidBifX,CentroidBifY,'go','linewidth',2)
Kopen=imclose(K,strel('square',7));
KopenClean= imfill(Kopen,'holes');
KopenClean=bwareaopen(KopenClean,5);
imshow(KopenClean)
KopenClean([1 end],:)=0;
KopenClean(:,[1 end])=0;
ROI=imerode(KopenClean,strel('disk',10));
imshow(ROI)
imshow(I)
hold on
imshow(ROI)
alpha(0.5)
hold on
plot(CentroidTerm(:,1),CentroidTerm(:,2),'ro')
plot(CentroidBif(:,1),CentroidBif(:,2),'go')
hold off
%orientation
Table=[3*pi/4 2*pi/3 pi/2 pi/3 pi/4
5*pi/6 0 0 0 pi/6
pi 0 0 0 0
-5*pi/6 0 0 0 -pi/6
-3*pi/4 -2*pi/3 -pi/2 -pi/3 -pi/4];
for ind=1:length(CentroidTermX)
Klocal=K(CentroidTermY(ind)-2:CentroidTermY(ind)+2,CentroidTermX(ind)-2:CentroidTermX(ind)+2);
Klocal(2:end-1,2:end-1)=0;
[i,j]=find(Klocal);
OrientationTerm(ind,1)=Table(i,j);
end
dxTerm=sin(OrientationTerm)*5;
dyTerm=cos(OrientationTerm)*5;
figure
imshow(K)
set(gcf,'position',[1 1 600 600]);
hold on
plot(CentroidTermX,CentroidTermY,'ro','linewidth',2)
plot([CentroidTermX CentroidTermX+dyTerm]',...
[CentroidTermY CentroidTermY-dxTerm]','r','linewidth',2)
%%Bifurcation Orientation
% For each bifurcation, we have three lines. So we operate the same process than in termination case three times.
for ind=1:length(CentroidBifX)
Klocal=K(CentroidBifY(ind)-2:CentroidBifY(ind)+2,CentroidBifX(ind)-2:CentroidBifX(ind)+2);
Klocal(2:end-1,2:end-1)=0;
[i,j]=find(Klocal);
if length(i)~=3
CentroidBifY(ind)=NaN;
CentroidBifX(ind)=NaN;
OrientationBif(ind)=NaN;
else
for k=1:3
OrientationBif(ind,k)=Table(i(k),j(k));
dxBif(ind,k)=sin(OrientationBif(ind,k))*5;
dyBif(ind,k)=cos(OrientationBif(ind,k))*5;
end
end
end
plot(CentroidBifX,CentroidBifY,'go','linewidth',2)
OrientationLinesX=[CentroidBifX CentroidBifX+dyBif(:,1);CentroidBifX CentroidBifX+dyBif(:,2);CentroidBifX CentroidBifX+dyBif(:,3)]';
OrientationLinesY=[CentroidBifY CentroidBifY-dxBif(:,1);CentroidBifY CentroidBifY-dxBif(:,2);CentroidBifY CentroidBifY-dxBif(:,3)]';
plot(OrientationLinesX,OrientationLinesY,'g','linewidth',2)
%Validation
MinutiaTerm=[CentroidTermX,CentroidTermY,OrientationTerm];
MinutiaBif=[CentroidBifX,CentroidBifY,OrientationBif];
saveMinutia('John Doe',MinutiaTerm,MinutiaBif);

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Accepted Answer

Walter Roberson
Walter Roberson on 5 Dec 2017
It is not possible to reach that line of code.
You have
[m,n]=size(I(:,:,1));
indTerm=sub2ind([m,n],CentroidTerm(:,1),CentroidTerm(:,2));
Z=zeros(m,n);
Z(indTerm)=1;
ZTerm=Z.*ROI';
but I is undefined, so it is not possible to reach the ZTerm line.
ROI is also undefined, so it would not be possible to execute the ZTerm line if you could get there.
  6 Comments
Show 4 older comments
Walter Roberson
Walter Roberson on 8 Dec 2017
You do not construct ROI until after you use it twice.
You attempt to take size(I(:,:,1)) but you have no variable I at that point.
You have the ROI' size problem twice and you did not show how you decided to fix it.
You use functions minutae and DistEuclidean without bothering to mention that you obtained them from https://www.mathworks.com/matlabcentral/fileexchange/16728-fingerprint-application

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