correcting x-ray image
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hello... i have the following code to correct the contrast of x-ray image,, but at last it gives a black image not x-ray,, Can any body help ???
load('heel_effect.mat')
imread('Hand.png')
subplot 231
imshow('Hand.png')
title('Origin')
tissue=tissue_eq_slab_image ;
h=x_ray_HeelEffect_image;
subplot 232
imagesc(tissue); colormap gray
title('Tissue Slab')
subplot 233
imagesc(h); colormap gray
title('Heel effect')
[M,N]=size(tissue);
mid_line=tissue(M/2,:);
subplot 234
imshow(mid_line)
title('Mid Line')
[m,n]=size(mid_line);
for c=1:n
T(c)=mid_line(:,c);
end
subplot 235
plot(1:n,T)
title('Relation')
log_T=log (double(T+eps));
log_c=log(double((1:n)+eps));
% I=A*x^Gama
%Ln I=Ln A+ Gama Ln x
z=polyfit (log_c, log_T,1);
Gama=z(1,1); %slope= Gama
A=exp(z(1,2)); %constant=Ln A
[m1,n1]=size(h);
for i=1:n1
corrected(:,n1)=tissue(:,n1)/A*(n1.^Gama);
end
subplot 236
imagesc(corrected)
title('Corrected Image')
11 Comments
Christine Ak
on 12 Oct 2013
sixwwwwww
on 12 Oct 2013
Dear Christine, "heel_effect.mat" is not attached yet and also can you please explain what is meaning of these lines of your code?
tissue=tissue_eq_slab_image;
h=x_ray_HeelEffect_image;
because variables "tissue_eq_slab_image" and "x_ray_HeelEffect_image" are not defined anywhere. So I assume that you mean as follows
tissue_eq_slab_image = imread('Hand.png')
x_ray_HeelEffect_image = load('heel_effect.mat')
Is it correct?
Christine Ak
on 12 Oct 2013
sixwwwwww
on 12 Oct 2013
what is size of your ".mat" file?
Image Analyst
on 12 Oct 2013
We can't really run your code unless you attach the mat file - you have to zip it up for now (until Answers gets that issue fixed). Have you actually observed values of corrected in the variable editor and verified that all values are exactly zero? Or does it just look black when you display it?
Christine Ak
on 12 Oct 2013
Edited: Christine Ak
on 12 Oct 2013
Image Analyst
on 12 Oct 2013
Nothing is attached.
Christine Ak
on 12 Oct 2013
Image Analyst
on 12 Oct 2013
zip up the mat file and click the paper clip icon when you make a comment!!
Wesam Mohamed
on 9 Jun 2020
Is this the full answer with run ?!
Answers (1)
Youssef Khmou
on 12 Oct 2013
You can use the histogram equalization , see this example :
I = imread('tire.tif');
J = histeq(I);
imshow(I)
figure, imshow(J)
see
doc histeq
6 Comments
Christine Ak
on 12 Oct 2013
Youssef Khmou
on 12 Oct 2013
Edited: Youssef Khmou
on 12 Oct 2013
Apply hiseq for each channel : example :
I=im2double(imread('autumn.tif'));
X=zeros(size(I));
for n=1:3
X(:,:,n)=histeq(I(:,:,n));
end
Image Analyst
on 13 Oct 2013
No offense, but do you like what histeq does? I find it gives unrealistic and unnatural looking images. Even a primitive contrast stretch like imadjust() will give more pleasing images than histeq(). I think histeq is just in there for instructional purposes but I doubt anyone in real world situations considers it a good thing to do. A gamma like she tried will probably look okay but that just adjusts intensity. Some of the better filters do that plus do spatial frequency enhancements to see details better.
Youssef Khmou
on 13 Oct 2013
I agree, but it may work for X ray images, waiting for her answer..
Christine Ak
on 13 Oct 2013
Christine Ak
on 13 Oct 2013
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