plz ans my question i want to segment the pic but this code give me erroe plz help?

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diya il 3 Feb 2016

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Commentato: diya il 3 Feb 2016

%This code implements multi-region graph cut image segmentation according
%to the kernel-mapping formulation in M. Ben Salah, A. Mitiche, and 
%I. Ben Ayed, Multiregion Image Segmentation by Parametric Kernel Graph
%Cuts, IEEE Transactions on Image Processing, 20(2): 545-557 (2011).
%The code uses Veksler, Boykov, Zabih and Kolmogorov’s implementation
%of the Graph Cut algorithm. Written in C++, the graph cut algorithm comes
%bundled with a MATLAB wrapper by Shai Bagon (Weizmann). The kernel mapping
%part was implemented in MATLAB by M. Ben Salah (University
%of Alberta). If you use this code, please cite the papers mentioned in the
%accompanying bib file (citations.bib).
%%%%%%%%%%%%%%%%%%%%%%%%%%%Requirements%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%This code was tested with:
% • MATLAB Version: 7.12.0.635 (R2011a) for 32-bit wrapper
% • Microsoft Visual C++ 2010 Express
%%%%%%%%%%%%%%%%%%%Generating the mex files in MATLAB%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%>>mex -g GraphCutConstr.cpp graph.cpp GCoptimization.cpp Graph-
%Cut.cpp LinkedBlockList.cpp maxflow.cpp
%>>mex -g GraphCutMex.cpp graph.cpp GCoptimization.cpp GraphCut.cpp
%LinkedBlockList.cpp maxflow.cpp
clear all; close all; 
%%%%%%%%%%%%%%%%%%%%%%%Main inputs and parameters%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%Note: The RBF-kernel parameters are given in function kernel RBF.m%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%Example with a color image%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%path = 'Images\Color_image.jpg';
%im = im2double(imread(path)); 
%alpha=1; %The weight of the smoothness constraint
%k =8; %The number of regions
%%%%%%%Example with a SAR image corrupted with a multiplicative noise%%%%%%
%%%%%%%%%%%%%%%%Uncomment the following to run the example)%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
imread('wb.jpg');
alpha=0.6;
k =4;
%%%%%%%%%%%%%%%%%%%%%%%%%%Example with a brain image%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%Uncomment the following to run the example)%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%path = 'Images\Brain_image.tif';
%im = im2double(imread(path));
%alpha=0.1;
%k =4;
sz = size(image);
Hc=ones(sz(1:2));
Vc=Hc;
i_ground = 0; % rank of the bakground for plotting, 0: the darkest; 
%k-1 the brightest; 99: nowhere
diff=10000;
an_energy=999999999;
iter=0;
iter_v=0;
energy_global_min=99999999;
distance = 'sqEuclidean'; % Feature space distance
% Initialization: cluster the data into k regions
tic,
disp('Start kmeans');
data = ToVector(im);
[idx c] = kmeans(data, k, 'distance', distance,'EmptyAction','drop','maxiter',100);
c=c(find(isfinite(c(:,1))),:);
k=size(c,1);
k_max=k;
kmean_time=toc,
Dc = zeros([sz(1:2) k],'single');   
c,
tic
while iter < 5
    iter=iter+1;
    clear Dc
    clear K
    c;
    for ci=1:k
        K=kernel_RBF(im,c(ci,:));
        Dc(:,:,ci)=1-K;
    end   
    clear Sc
    clear K
    %%The smoothness term
    Sc = alpha*(ones(k) - eye(k)); 
    gch = GraphCut('open', Dc, Sc, Vc, Hc);
    [gch L] = GraphCut('swap',gch);
    [gch se de] = GraphCut('energy', gch);
    nv_energy=se+de;
    gch = GraphCut('close', gch);
      if (nv_energy<=energy_global_min)
          diff=abs(energy_global_min-nv_energy)/energy_global_min;
          energy_global_min=nv_energy;
          L_global_min=L;
          k_max=k;
          nv_energy;
          iter_v=0;
          % Calculate region Pl of label l
          if size(im, 3)==3 % Color image
          for l=0:k-1
              Pl=find(L==l);
              card=length(Pl);
              K1=kernel_RBF(im(Pl),c(l+1,1));K2=kernel_RBF(im(Pl),c(l+1,2));K3=kernel_RBF(im(Pl),c(l+1,3));
              smKI(1)=sum(im(Pl).*K1); smKI(2)=sum(im(Pl+prod(sz(1:2))).*K2); smKI(3)=sum(im(Pl+2*prod(sz(1:2))).*K3);
              smK1=sum(K1);smK2=sum(K2);smK3=sum(K3);
              if (card~=0)
                  c(l+1,1)=smKI(1)/smK1;c(l+1,2)=smKI(2)/smK2;c(l+1,3)=smKI(3)/smK3;
              else
                  c(l+1,1)=999999999;c(l+1,2)=999999999;c(l+1,3)=999999999;
              end
          end
          end
          if size(im, 1)==1 % Gray-level image
          for l=0:k-1
              Pl=find(L==l);
              card=length(Pl);
              K=kernel_RBF(im(Pl),c(l+1,1));
              smKI=sum(im(Pl).*K);
              smK=sum(K);
              if (card~=0)
                  c(l+1,1)=smKI/smK;
              else
                  c(l+1,1)=999999999;
              end
          end
          end
          c=c(find(c(:,1)~=999999999),:);
          c_global_min=c;
          k_global=length(c(:,1));
          k=k_global;
      else
          iter_v=iter_v+1;
          %---------------------------------
          %       Begin updating labels
          %---------------------------------
          % Calculate region Pl of label l
          if size(im, 3)==3 % Color image 
          for l=0:k-1           
              Pl=find(L==l);
              card=length(Pl);
              K1=kernel_RBF(im(Pl),c(l+1,1));K2=kernel_RBF(im(Pl),c(l+1,2));K3=kernel_RBF(im(Pl),c(l+1,3));
              smKI(1)=sum(im(Pl).*K1); smKI(2)=sum(im(Pl+prod(sz(1:2))).*K2); smKI(3)=sum(im(Pl+2*prod(sz(1:2))).*K3);
              smK1=sum(K1);smK2=sum(K2);smK3=sum(K3);
              % Calculate contour Cl of region Pl
              if (card~=0)
                  c(l+1,1)=smKI(1)/smK1;c(l+1,2)=smKI(2)/smK2;c(l+1,3)=smKI(3)/smK3;
              else
                  c(l+1,1)=999999999;c(l+1,2)=999999999;c(l+1,3)=999999999;
                  area(l+1)=999999999;
              end
          end
          end
          if size(im, 3)== 1 % Gray-level image 
          for l=0:k-1           
              Pl=find(L==l);
              card=length(Pl);
              K=kernel_RBF(im(Pl),c(l+1,1));
              smKI=sum(im(Pl).*K);
              smK=sum(K);
              % Calculate contour Cl of region Pl
              if (card~=0)
                  c(l+1,1)=smKI/smK;
              else
                  c(l+1,1)=999999999;
                  area(l+1)=999999999;
              end
          end
          end
          c=c(find(c(:,1)~=999999999),:);
          k=length(c(:,1));
      end
  end
L=L_global_min;
energy_global_min;
c=c_global_min;
size(c,1)
iter;
%Show the results
if size(im, 3)==3 % Color image 
img=zeros(sz(1),sz(2),3);
j=1;
imagesc(im); axis off; hold on; 
for i=0:k_max-1
    LL=(L_global_min==i);
    is_zero=sum(sum(LL));
    if is_zero
         img(:,:,1)=img(:,:,1)+LL*c(j,1);
         img(:,:,2)=img(:,:,2)+LL*c(j,2);
         img(:,:,3)=img(:,:,3)+LL*c(j,3);
         j=j+1;
    end
    if i~=i_ground
        color=[rand rand rand];
        contour(LL,[1 1],'LineWidth',2.5,'Color',color); hold on;
    end
end
figure(2);
imagesc(img); axis off;
end
if size(im, 3)==1 % Gray-level image 
img=zeros(sz(1),sz(2));
j=1;
imagesc(im); axis off; hold on; colormap gray; 
for i=0:k_max-1
    LL=(L_global_min==i);
    is_zero=sum(sum(LL));
    if is_zero
         img(:,:,1)=img(:,:,1)+LL*c(j,1);
         j=j+1;
    end
    if i~=i_ground
        color=[rand rand rand];
        contour(LL,[1 1],'LineWidth',2.5,'Color',color); hold on;
    end
end
figure(2);
imagesc(img); axis off;
end

2 Commenti
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Walter Roberson il 3 Feb 2016

Apri in MATLAB Online

We need to see the error message, everything in red.

The code appears to rely upon some programs having been compiled. Have you compiled the programs?

 mex -g GraphCutConstr.cpp graph.cpp GCoptimization.cpp Graph-Cut.cpp LinkedBlockList.cpp maxflow.cpp
 mex -g GraphCutMex.cpp graph.cpp GCoptimization.cpp GraphCut.cpp LinkedBlockList.cpp maxflow.cpp

diya il 3 Feb 2016

yes i compile but it give error

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Answer 1

diya il 3 Feb 2016

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https://it.mathworks.com/matlabcentral/answers/266384-plz-ans-my-question-i-want-to-segment-the-pic-but-this-code-give-me-erroe-plz-help#answer_208331

Apri in MATLAB Online

%This code implements multi-region graph cut image segmentation according %to the kernel-mapping formulation in M. Ben Salah, A. Mitiche, and %I. Ben Ayed, Multiregion Image Segmentation by Parametric Kernel Graph %Cuts, IEEE Transactions on Image Processing, 20(2): 545-557 (2011). %The code uses Veksler, Boykov, Zabih and Kolmogorov’s implementation %of the Graph Cut algorithm. Written in C++, the graph cut algorithm comes %bundled with a MATLAB wrapper by Shai Bagon (Weizmann). The kernel mapping %part was implemented in MATLAB by M. Ben Salah (University %of Alberta). If you use this code, please cite the papers mentioned in the %accompanying bib file (citations.bib).

%%%%%%%%%%%%%%%%%%%%%%%%%%%Requirements%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %This code was tested with: % • MATLAB Version: 7.12.0.635 (R2011a) for 32-bit wrapper % • Microsoft Visual C++ 2010 Express

%%%%%%%%%%%%%%%%%%%Generating the mex files in MATLAB%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

%>>mex -g GraphCutConstr.cpp graph.cpp GCoptimization.cpp Graph- %Cut.cpp LinkedBlockList.cpp maxflow.cpp

%>>mex -g GraphCutMex.cpp graph.cpp GCoptimization.cpp GraphCut.cpp %LinkedBlockList.cpp maxflow.cpp

clear all; close all;

%%%%%%%%%%%%%%%%%%%%%%%Main inputs and parameters%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%Note: The RBF-kernel parameters are given in function kernel RBF.m%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

%%%%%%%%%%%%%%%%%%%%%%%Example with a color image%%%%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %path = 'Images\Color_image.jpg'; %im = im2double(imread(path)); %alpha=1; %The weight of the smoothness constraint %k =8; %The number of regions

%%%%%%%Example with a SAR image corrupted with a multiplicative noise%%%%%% %%%%%%%%%%%%%%%%Uncomment the following to run the example)%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

imread('wb.jpg'); alpha=0.6; k =4;

%%%%%%%%%%%%%%%%%%%%%%%%%%Example with a brain image%%%%%%%%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%Uncomment the following to run the example)%%%%%%%%%%%%%%%% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

%path = 'Images\Brain_image.tif'; %im = im2double(imread(path)); %alpha=0.1; %k =4;

sz = size(image); Hc=ones(sz(1:2)); Vc=Hc; i_ground = 0; % rank of the bakground for plotting, 0: the darkest; %k-1 the brightest; 99: nowhere

diff=10000; an_energy=999999999; iter=0; iter_v=0; energy_global_min=99999999;

distance = 'sqEuclidean'; % Feature space distance

% Initialization: cluster the data into k regions tic, disp('Start kmeans'); data = ToVector(im); [idx c] = kmeans(data, k, 'distance', distance,'EmptyAction','drop','maxiter',100); c=c(find(isfinite(c(:,1))),:); k=size(c,1); k_max=k; kmean_time=toc,

Dc = zeros([sz(1:2) k],'single'); c,

tic while iter < 5 iter=iter+1; clear Dc clear K c; for ci=1:k K=kernel_RBF(im,c(ci,:)); Dc(:,:,ci)=1-K; end clear Sc clear K %% The smoothness term Sc = alpha*(ones(k) - eye(k)); gch = GraphCut('open', Dc, Sc, Vc, Hc); [gch L] = GraphCut('swap',gch); [gch se de] = GraphCut('energy', gch); nv_energy=se+de; gch = GraphCut('close', gch);

    if (nv_energy<=energy_global_min)
        diff=abs(energy_global_min-nv_energy)/energy_global_min;
        energy_global_min=nv_energy;
        L_global_min=L;
        k_max=k;
        nv_energy;
        iter_v=0;
        % Calculate region Pl of label l
        if size(im, 3)==3 % Color image
        for l=0:k-1
            Pl=find(L==l);
            card=length(Pl);
            K1=kernel_RBF(im(Pl),c(l+1,1));K2=kernel_RBF(im(Pl),c(l+1,2));K3=kernel_RBF(im(Pl),c(l+1,3));
            smKI(1)=sum(im(Pl).*K1); smKI(2)=sum(im(Pl+prod(sz(1:2))).*K2); smKI(3)=sum(im(Pl+2*prod(sz(1:2))).*K3);
            smK1=sum(K1);smK2=sum(K2);smK3=sum(K3);
            if (card~=0)
                c(l+1,1)=smKI(1)/smK1;c(l+1,2)=smKI(2)/smK2;c(l+1,3)=smKI(3)/smK3;
            else
                c(l+1,1)=999999999;c(l+1,2)=999999999;c(l+1,3)=999999999;
            end
        end
        end
        if size(im, 1)==1 % Gray-level image
        for l=0:k-1
            Pl=find(L==l);
            card=length(Pl);
            K=kernel_RBF(im(Pl),c(l+1,1));
            smKI=sum(im(Pl).*K);
            smK=sum(K);
            if (card~=0)
                c(l+1,1)=smKI/smK;
            else
                c(l+1,1)=999999999;
            end
        end
        end
        c=c(find(c(:,1)~=999999999),:);
        c_global_min=c;
        k_global=length(c(:,1));
        k=k_global;
    else
        iter_v=iter_v+1;
        %---------------------------------
        %       Begin updating labels
        %---------------------------------
        % Calculate region Pl of label l
        if size(im, 3)==3 % Color image 
        for l=0:k-1           
            Pl=find(L==l);
            card=length(Pl);
            K1=kernel_RBF(im(Pl),c(l+1,1));K2=kernel_RBF(im(Pl),c(l+1,2));K3=kernel_RBF(im(Pl),c(l+1,3));
            smKI(1)=sum(im(Pl).*K1); smKI(2)=sum(im(Pl+prod(sz(1:2))).*K2); smKI(3)=sum(im(Pl+2*prod(sz(1:2))).*K3);
            smK1=sum(K1);smK2=sum(K2);smK3=sum(K3);
            % Calculate contour Cl of region Pl
            if (card~=0)
                c(l+1,1)=smKI(1)/smK1;c(l+1,2)=smKI(2)/smK2;c(l+1,3)=smKI(3)/smK3;
            else
                c(l+1,1)=999999999;c(l+1,2)=999999999;c(l+1,3)=999999999;
                area(l+1)=999999999;
            end
        end
        end
        if size(im, 3)== 1 % Gray-level image 
        for l=0:k-1           
            Pl=find(L==l);
            card=length(Pl);
            K=kernel_RBF(im(Pl),c(l+1,1));
            smKI=sum(im(Pl).*K);
            smK=sum(K);
            % Calculate contour Cl of region Pl
            if (card~=0)
                c(l+1,1)=smKI/smK;
            else
                c(l+1,1)=999999999;
                area(l+1)=999999999;
            end
        end
        end
        c=c(find(c(:,1)~=999999999),:);
        k=length(c(:,1));
    end
end

L=L_global_min; energy_global_min; c=c_global_min;

size(c,1) iter;

%Show the results

if size(im, 3)==3 % Color image img=zeros(sz(1),sz(2),3); j=1; imagesc(im); axis off; hold on;

for i=0:k_max-1 LL=(L_global_min==i); is_zero=sum(sum(LL)); if is_zero img(:,:,1)=img(:,:,1)+LL*c(j,1); img(:,:,2)=img(:,:,2)+LL*c(j,2); img(:,:,3)=img(:,:,3)+LL*c(j,3); j=j+1; end if i~=i_ground color=[rand rand rand]; contour(LL,[1 1],'LineWidth',2.5,'Color',color); hold on; end end figure(2); imagesc(img); axis off; end

if size(im, 3)==1 % Gray-level image img=zeros(sz(1),sz(2)); j=1; imagesc(im); axis off; hold on; colormap gray;

for i=0:k_max-1 LL=(L_global_min==i); is_zero=sum(sum(LL)); if is_zero img(:,:,1)=img(:,:,1)+LL*c(j,1); j=j+1; end if i~=i_ground color=[rand rand rand]; contour(LL,[1 1],'LineWidth',2.5,'Color',color); hold on; end end figure(2); imagesc(img); axis off; end