sir, I have tried the below code for the lung cancer detection but at the last part it showing the error "Index exceeds matrix dimensions'' why this error coming and how to fix it

23 visualizaciones (últimos 30 días)
clc;
clear all;
close all;
% read the input CT image
I=imread('image5c.png');
figure
imshow(I);
title('INPUT CT IMAGE');
Igra1=rgb2gray(I);
figure
imshow(Igra1);
title('GRAY IMAGE');
Ifil2=medfilt2(Igra1,[3,3]);
figure
imshow(Ifil2);
title('FILTERED GRAY IMAGE');
text(732,501,'Image courtesy of Corel(R)',...
'FontSize',7,'HorizontalAlignment','right')
hy = fspecial('sobel');
hx = hy';
Iy = imfilter(double(Ifil2), hy, 'replicate');
Ix = imfilter(double(Ifil2), hx, 'replicate');
gradmag = sqrt(Ix.^2 + Iy.^2);
figure
imshow(gradmag,[]), title('Gradient magnitude (gradmag)')
L = watershed(gradmag);
Lrgb = label2rgb(L);
figure, imshow(Lrgb), title('Watershed transform of gradient magnitude (Lrgb)')
se = strel('disk', 20);
Io = imopen(Ifil2, se);
figure
imshow(Io), title('Opening (Io)')
Ie = imerode(Ifil2, se);
Iobr = imreconstruct(Ie, Ifil2);
figure
imshow(Iobr), title('Opening-by-reconstruction (Iobr)')
Ioc = imclose(Io, se);
figure
imshow(Ioc), title('Opening-closing (Ioc)')
Iobrd = imdilate(Iobr, se);
Iobrcbr = imreconstruct(imcomplement(Iobrd), imcomplement(Iobr));
Iobrcbr = imcomplement(Iobrcbr);
figure
imshow(Iobrcbr), title('Opening-closing by reconstruction (Iobrcbr)')
fgm = imregionalmax(Iobrcbr);
figure
imshow(fgm), title('Regional maxima of opening-closing by reconstruction (fgm)')
I21 = Ifil2;
Ifil2(fgm) = 255;
figure
imshow(I21), title('Regional maxima superimposed on original image (I21)')
se2 = strel(ones(5,5));
fgm2 = imclose(fgm, se2);
fgm3 = imerode(fgm2, se2);
fgm4 = bwareaopen(fgm3, 20);
I3 = Ifil2;
I3(fgm4) = 255;
figure
imshow(I3)
title('Modified regional maxima superimposed on original image (fgm4)')
bw = imbinarize(Iobrcbr);
figure
imshow(bw), title('Thresholded opening-closing by reconstruction (bw)')
D = bwdist(bw);
DL = watershed(D);
bgm = DL == 0;
figure
imshow(bgm), title('Watershed ridge lines (bgm)')
gradmag2 = imimposemin(gradmag, bgm | fgm4);
L = watershed(gradmag2);
I4 = Ifil2;
I4(imdilate(L == 0, ones(3, 3)) | bgm | fgm4) = 255;
figure
imshow(I4)
title('Markers and object boundaries superimposed on original image (I4)')
Lrgb = label2rgb(L, 'jet', 'w', 'shuffle');
figure
imshow(Lrgb)
title('Colored watershed label matrix (Lrgb)')
figure
imshow(Ifil2)
hold on
himage = imshow(Lrgb);
himage.AlphaData = 0.3;
title('Lrgb superimposed transparently on original image')
x = double(fgm);
m = size(fgm,1);
n = size(fgm,2);
signal1 = fgm(:,:);
%Feat = getmswpfeat(signal,winsize,wininc,J,'matlab');
%Features = getmswpfeat(signal,winsize,wininc,J,'matlab');
[cA1,cH1,cV1,cD1] = dwt2(signal1,'db4');
[cA2,cH2,cV2,cD2] = dwt2(cA1,'db4');
[cA3,cH3,cV3,cD3] = dwt2(cA2,'db4');
DWT_feat = [cA3,cH3,cV3,cD3];
G = pca(DWT_feat);
g = graycomatrix(G);
stats = graycoprops(g,'Contrast Correlation Energy Homogeneity');
Contrast = stats.Contrast;
Correlation = stats.Correlation;
Energy = stats.Energy;
Homogeneity = stats.Homogeneity;
Mean = mean2(G);
Standard_Deviation = std2(G);
Entropy = entropy(G);
RMS = mean2(rms(G));
%Skewness = skewness(img)
Variance = mean2(var(double(G)));
a = sum(double(G(:)));
Smoothness = 1-(1/(1+a));
Kurtosis = kurtosis(double(G(:)));
Skewness = skewness(double(G(:)));
% Inverse Difference Movement
m = size(G,1);
n = size(G,2);
in_diff = 0;
for i = 1:m
for j = 1:n
temp = G(i,j)./(1+(i-j).^2);
in_diff = in_diff+temp;
end
end
IDM = double(in_diff);
feat = [Contrast,Correlation,Energy,Homogeneity, Mean, Standard_Deviation, Entropy, RMS, Variance, Smoothness, Kurtosis, Skewness, IDM];
%%SVM TRAINING AND CLASSIFICATION
database = xlsread('datacan.xls');
% Read Database in excel file
disp('data base of patients ');
disp(database);
Contrast = database(1:10,1);
Correlation = database(1:10,2);
Energy = database(1:10,3);
Homogeneity = database(1:10,4);
Mean = database(1:10,5);
Standard_Deviation = database(1:10,6);
Entropy = database(1:10,7);
RMS = database(1:10,8);
Variance = database(1:10,9);
Smoothness = database(1:10,10);
Kurtosis = database(1:10,11);
Skewness = database(1:10,12);
IDM = database(1:10,13);
xdata = ([Contrast,Correlation,Energy,Homogeneity, Mean, Standard_Deviation, Entropy, RMS, Variance, Smoothness, Kurtosis, Skewness, IDM]);
group = database(1:10,14);
svmStruct= svmtrain(xdata,group,'kernel_function','rbf','rbf_sigma',3,'ShowPlot',true);
% Classifying New input data
disease = svmclassify(svmStruct,[feat],'ShowPlot',true);
if (disease==1)
disp('Patient is having cancer');
h=msgbox('Patient is having cancer','RESULT','custom',I);
else
disp('Patient is not having cancer');
h=msgbox('Patient is not having cancer','RESULT','custom',I);
end
  9 comentarios

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Respuestas (7)

KSSV
KSSV el 9 de Abr. de 2018
Editada: KSSV el 9 de Abr. de 2018
Your excel file has data of size 9*14.....you are trying to access data data(1:10,i). So this is the error. Either you replace 1:10 with : or 1:end, from lines 132 to 142.
The data of the patient has cancer..poor him.

Sagar V
Sagar V el 29 de En. de 2019
how train the datacan.xls file or .mat file please help me to perform for my dataset images
  2 comentarios
Walter Roberson
Walter Roberson el 29 de En. de 2019
The code line
svmStruct= svmtrain(xdata,group,'kernel_function','rbf','rbf_sigma',3,'ShowPlot',true);
does the training.
Note that svmtrain() has been replaced in newer MATLAB releases.
Sagar V
Sagar V el 7 de Feb. de 2019
how to create datacan.xls file or .mat file of an 50 images at a time and storing to
a file

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LAKSHIPRIYA GOGOI
LAKSHIPRIYA GOGOI el 11 de Mayo de 2020
Editada: LAKSHIPRIYA GOGOI el 11 de Mayo de 2020
Getting problem in this syntax
svmStruct= svmtrain(xdata,group,'kernel_function','rbf','rbf_sigma',3,'ShowPlot',true);
I am using Matlab2014a.. I will be pleased if I got the answer..
  5 comentarios
Walter Roberson
Walter Roberson el 24 de Jul. de 2021
Agent: we need to know which MATLAB version you are using, and whether you have the Statistics toolbox, and if not whether you have installed the third party SVM toolbox

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Vinithra P
Vinithra P el 5 de Jul. de 2021
May I know, which part is the detection in this?
  1 comentario
Walter Roberson
Walter Roberson el 5 de Jul. de 2021
All of it.
In particular, the part from
[cA1,cH1,cV1,cD1] = dwt2(signal1,'db4');
is creating features, through to
feat = [Contrast,Correlation,Energy,Homogeneity, Mean, Standard_Deviation, Entropy, RMS, Variance, Smoothness, Kurtosis, Skewness, IDM];
puts the completed feature vector together.
Then the part from
%%SVM TRAINING AND CLASSIFICATION
to
svmStruct= svmtrain(xdata,group,'kernel_function','rbf','rbf_sigma',3,'ShowPlot',true);
extracts features from a database and does svm training on it.
Then
disease = svmclassify(svmStruct,[feat],'ShowPlot',true);
processes the features extracted from the patient image through the trained SVM system, making a prediction about which group it belongs to.

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khushboo singh
khushboo singh el 7 de Nov. de 2021
THIS SYNTAX IS NOT WORKING IN R2021b
svmStruct= svmtrain(xdata,group,'kernel_function','rbf','rbf_sigma',3,'ShowPlot',true);
  8 comentarios
Walter Roberson
Walter Roberson el 8 de Dic. de 2021
svmStruct= fitcsvm(xdata,group,'KernelFunction',' KernelScale',3,'ShowPlot',true);
That line does not match your posted code. Your posted code says
svmStruct= fitcsvm(xdata,group,'KernelFunction','rbf',' KernelScale',3,'ShowPlot',true);
Notice that in the error message, there is no 'rbf' . Also, you introduced a space at the beginning of the KernelScale option.

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Kunala Sahith
Kunala Sahith el 8 de Dic. de 2021
Editada: Walter Roberson el 8 de Dic. de 2021
I=imread('000114.png');
figure
imshow(I);
title('INPUT CT IMAGE');
Igra1=rgb2gray(I);
figure
imshow(Igra1);
title('GRAY IMAGE');
Ifil2=medfilt2(Igra1,[3,3]);
figure
imshow(Ifil2);
title('FILTERED GRAY IMAGE');
text(732,501,'Image courtesy of Corel(R)',...
'FontSize',7,'HorizontalAlignment','right')
hy = fspecial('sobel');
hx = hy';
Iy = imfilter(double(Ifil2), hy, 'replicate');
Ix = imfilter(double(Ifil2), hx, 'replicate');
gradmag = sqrt(Ix.^2 + Iy.^2);
figure
imshow(gradmag,[]), title('Gradient magnitude (gradmag)')
L = watershed(gradmag);
Lrgb = label2rgb(L);
figure, imshow(Lrgb), title('Watershed transform of gradient magnitude (Lrgb)')
se = strel('disk', 20);
Io = imopen(Ifil2, se);
figure
imshow(Io), title('Opening (Io)')
Ie = imerode(Ifil2, se);
Iobr = imreconstruct(Ie, Ifil2);
figure
imshow(Iobr), title('Opening-by-reconstruction (Iobr)')
Ioc = imclose(Io, se);
figure
imshow(Ioc), title('Opening-closing (Ioc)')
Iobrd = imdilate(Iobr, se);
Iobrcbr = imreconstruct(imcomplement(Iobrd), imcomplement(Iobr));
Iobrcbr = imcomplement(Iobrcbr);
figure
imshow(Iobrcbr), title('Opening-closing by reconstruction (Iobrcbr)')
fgm = imregionalmax(Iobrcbr);
figure
imshow(fgm), title('Regional maxima of opening-closing by reconstruction (fgm)')
I21 = Ifil2;
Ifil2(fgm) = 255;
figure
imshow(I21), title('Regional maxima superimposed on original image (I21)')
se2 = strel(ones(5,5));
fgm2 = imclose(fgm, se2);
fgm3 = imerode(fgm2, se2);
fgm4 = bwareaopen(fgm3, 20);
I3 = Ifil2;
I3(fgm4) = 255;
figure
imshow(I3)
title('Modified regional maxima superimposed on original image (fgm4)')
bw = imbinarize(Iobrcbr);
figure
imshow(bw), title('Thresholded opening-closing by reconstruction (bw)')
D = bwdist(bw);
DL = watershed(D);
bgm = DL == 0;
figure
imshow(bgm), title('Watershed ridge lines (bgm)')
gradmag2 = imimposemin(gradmag, bgm | fgm4);
L = watershed(gradmag2);
I4 = Ifil2;
I4(imdilate(L == 0, ones(3, 3)) | bgm | fgm4) = 255;
figure
imshow(I4)
title('Markers and object boundaries superimposed on original image (I4)')
Lrgb = label2rgb(L, 'jet', 'w', 'shuffle');
figure
imshow(Lrgb)
title('Colored watershed label matrix (Lrgb)')
figure
imshow(Ifil2)
hold on
himage = imshow(Lrgb);
himage.AlphaData = 0.3;
title('Lrgb superimposed transparently on original image')
x = double(fgm);
m = size(fgm,1);
n = size(fgm,2);
signal1 = fgm(:,:);
%Feat = getmswpfeat(signal,winsize,wininc,J,'matlab');
%Features = getmswpfeat(signal,winsize,wininc,J,'matlab');
[cA1,cH1,cV1,cD1] = dwt2(signal1,'db4');
[cA2,cH2,cV2,cD2] = dwt2(cA1,'db4');
[cA3,cH3,cV3,cD3] = dwt2(cA2,'db4');
DWT_feat = [cA3,cH3,cV3,cD3];
G = pca(DWT_feat);
g = graycomatrix(G);
stats = graycoprops(g,'Contrast Correlation Energy Homogeneity');
Contrast = stats.Contrast;
Correlation = stats.Correlation;
Energy = stats.Energy;
Homogeneity = stats.Homogeneity;
Mean = mean2(G);
Standard_Deviation = std2(G);
Entropy = entropy(G);
RMS = mean2(rms(G));
%Skewness = skewness(img)
Variance = mean2(var(double(G)));
a = sum(double(G(:)));
Smoothness = 1-(1/(1+a));
Kurtosis = kurtosis(double(G(:)));
Skewness = skewness(double(G(:)));
% Inverse Difference Movement
m = size(G,1);
n = size(G,2);
in_diff = 0;
for i = 1:m
for j = 1:n
temp = G(i,j)./(1+(i-j).^2);
in_diff = in_diff+temp;
end
end
IDM = double(in_diff);
feat = [Contrast,Correlation,Energy,Homogeneity, Mean, Standard_Deviation, Entropy, RMS, Variance, Smoothness, Kurtosis, Skewness, IDM];
%%SVM TRAINING AND CLASSIFICATION
database = readmatrix('datacan.xls','UseExcel', false);
% Read Database in excel file
disp('data base of patients ');
disp(database);
Contrast = database(:,1);
Correlation = database(:,2);
Energy = database(:,3);
Homogeneity = database(:,4);
Mean = database(:,5);
Standard_Deviation = database(:,6);
Entropy = database(:,7);
RMS = database(:,8);
Variance = database(:,9);
Smoothness = database(:,10);
Kurtosis = database(:,11);
Skewness = database(:,12);
IDM = database(:,13);
xdata = ([Contrast,Correlation,Energy,Homogeneity, Mean, Standard_Deviation, Entropy, RMS, Variance, Smoothness, Kurtosis, Skewness, IDM]);
group = database(:,14);
svmStruct= fitcsvm(xdata,group,'KernelFunction','rbf','KernelScale',3,'ShowPlot',true);
% Classifying New input data
disease = ClassificationSVM(svmStruct,(feat),'ShowPlot',true);
if (disease==1)
disp('Patient is having cancer');
h=msgbox('Patient is having cancer','RESULT','custom',I);
else
disp('Patient is not having cancer');
h=msgbox('Patient is not having cancer','RESULT','custom',I);
end
  4 comentarios
Kunala Sahith
Kunala Sahith el 8 de Dic. de 2021
Finally IT WORKED SIR BY USING OLD VERSION OF MATLAB
but
showplot still doesnt work
Warning: The display option can only plot 2D training data.
> In svmtrain (line 399)
In dipmain1 (line 141)
Warning: No figure was created during SVMTRAIN so the showplot argument will be set false.
> In svmclassify (line 122)
In dipmain1 (line 143)
im using smvtrain as it is matlab2016b version.
can you pls correct me
code:-
xdata = ([Contrast,Correlation,Energy,Homogeneity, Mean, Standard_Deviation, Entropy, RMS, Variance, Smoothness, Kurtosis, Skewness, IDM]);
group = database(:,14);
svmStruct= svmtrain(xdata,group,'ShowPlot',true);
% Classifying New input data
disease = svmclassify(svmStruct,[feat],'ShowPlot',true);
Walter Roberson
Walter Roberson el 9 de Dic. de 2021
Editada: Walter Roberson el 9 de Dic. de 2021
Shrug. ShowPlot is restricted to plotting data that has two columns. You cannot use it for your data.
ShowPlot is intended to show the line of division between the two classes. That only works if you only have two input dimensions, not 13.

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Ahmed Alsheikhy
Ahmed Alsheikhy el 23 de Dic. de 2021
Could you send the Execl file to test it.

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