i create a gui there is two image upload button for two different axes now i want to convert this two image in binary form with help of one process button.....could any one help me .how to create?bellow is the code

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indrani dalui 2017년 6월 27일

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https://kr.mathworks.com/matlabcentral/answers/346415-i-create-a-gui-there-is-two-image-upload-button-for-two-different-axes-now-i-want-to-convert-this-tw

마감: MATLAB Answer Bot 2021년 8월 20일

% --- Executes on button press in pushbutton1. function pushbutton1_Callback(hObject, eventdata, handles) % hObject handle to pushbutton1 (see GCBO) % eventdata reserved - to be defined in a future version of MATLAB % handles structure with handles and user data (see GUIDATA)

[filename, pathname] = uigetfile({'*.bmp';'*.jpg';'*.gif';'*.*'}, 'Pick an Image File'); S = imread([pathname,filename]); axes(handles.axes1); imshow(S); handles.f=[pathname,filename]; guidata(hObject, handles);

% --- Executes on button press in pushbutton2. function pushbutton2_Callback(hObject, eventdata, handles) % hObject handle to pushbutton2 (see GCBO) % eventdata reserved - to be defined in a future version of MATLAB % handles structure with handles and user data (see GUIDATA) [filename, pathname] = uigetfile({'*.bmp';'*.jpg';'*.gif';'*.*'}, 'Pick an Image File'); S = imread([pathname,filename]); axes(handles.axes2); imshow(S); handles.f=[pathname,filename]; guidata(hObject, handles);

now the process button can convert two different image to binary form..........................

% --- Executes on button press in Process. function Process_Callback(hObject, eventdata, handles) % hObject handle to Process (see GCBO) % eventdata reserved - to be defined in a future version of MATLAB % handles structure with handles and user data (see GUIDATA) if isfield(handles, 'f') % convert to binary binary_image = im2bw( imread(handles.f) ); %Thinning thin_image=~bwmorph(binary_image,'thin',Inf); figure;imshow(thin_image);title('Thinned Image');

%Minutiae extraction s=size(thin_image); N=3;%window size n=(N-1)/2; r=s(1)+2*n; c=s(2)+2*n; double temp(r,c); temp=zeros(r,c);bifurcation=zeros(r,c);ridge=zeros(r,c); temp((n+1):(end-n),(n+1):(end-n))=thin_image(:,:); outImg=zeros(r,c,3);%For Display outImg(:,:,1) = temp .* 255; outImg(:,:,2) = temp .* 255; outImg(:,:,3) = temp .* 255; for x=(n+1+10):(s(1)+n-10) for y=(n+1+10):(s(2)+n-10) e=1; for k=x-n:x+n f=1; for l=y-n:y+n mat(e,f)=temp(k,l); f=f+1; end e=e+1; end; if(mat(2,2)==0) ridge(x,y)=sum(sum(~mat)); bifurcation(x,y)=sum(sum(~mat)); end end; end;

% RIDGE END FINDING [ridge_x ridge_y]=find(ridge==2); len=length(ridge_x); %For Display for i=1:len outImg((ridge_x(i)-3):(ridge_x(i)+3),(ridge_y(i)-3),2:3)=0; outImg((ridge_x(i)-3):(ridge_x(i)+3),(ridge_y(i)+3),2:3)=0; outImg((ridge_x(i)-3),(ridge_y(i)-3):(ridge_y(i)+3),2:3)=0; outImg((ridge_x(i)+3),(ridge_y(i)-3):(ridge_y(i)+3),2:3)=0;

    outImg((ridge_x(i)-3):(ridge_x(i)+3),(ridge_y(i)-3),1)=255;
    outImg((ridge_x(i)-3):(ridge_x(i)+3),(ridge_y(i)+3),1)=255;
    outImg((ridge_x(i)-3),(ridge_y(i)-3):(ridge_y(i)+3),1)=255;
    outImg((ridge_x(i)+3),(ridge_y(i)-3):(ridge_y(i)+3),1)=255;
end

%BIFURCATION FINDING [bifurcation_x bifurcation_y]=find(bifurcation==4); len=length(bifurcation_x); %For Display for i=1:len outImg((bifurcation_x(i)-3):(bifurcation_x(i)+3),(bifurcation_y(i)-3),1:2)=0; outImg((bifurcation_x(i)-3):(bifurcation_x(i)+3),(bifurcation_y(i)+3),1:2)=0; outImg((bifurcation_x(i)-3),(bifurcation_y(i)-3):(bifurcation_y(i)+3),1:2)=0; outImg((bifurcation_x(i)+3),(bifurcation_y(i)-3):(bifurcation_y(i)+3),1:2)=0;

    outImg((bifurcation_x(i)-3):(bifurcation_x(i)+3),(bifurcation_y(i)-3),3)=255;
    outImg((bifurcation_x(i)-3):(bifurcation_x(i)+3),(bifurcation_y(i)+3),3)=255;
    outImg((bifurcation_x(i)-3),(bifurcation_y(i)-3):(bifurcation_y(i)+3),3)=255;
    outImg((bifurcation_x(i)+3),(bifurcation_y(i)-3):(bifurcation_y(i)+3),3)=255;
end
figure;imshow(outImg);title('Minutiae');

end