normalization image, normalization distance pixels
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Hello,
i have image
when I use my code:
img = imread('obraz.bmp');
img = rgb2gray(img);
imshow(img);
%%normalization
img = ( img - min(img(:)) ) ./ ( max(img(:)) - min(img(:)) );
img = ~img;
[m n]=size(img)
P = [];
for i=1:m
for j=1:n
if img(i,j)==1
P = [P ; i j];
end
end
end
size(P);
MON=P;
[IDX,ctrs] = kmeans(MON,3);
clusteredImage = zeros(size(img));
clusteredImage(sub2ind(size(img) , P(:,1) , P(:,2)))=IDX;
imshow(label2rgb(clusteredImage))
my output is
as I am to normalize the image? when I want to output as
Thank for you help
Answers (2)
Image Analyst
on 1 Apr 2014
Get rid of all that. It's a totally wrong approach. You don't need normalization or building up a list of white pixels. Simply threshold the image and label it and apply colors.
rgbImage = imread('obraz.bmp');
grayImage = rgbImage(:,:,2); % Extract green channel.
binaryImage = grayImage > 128;
labeledImage = bwlabel(binaryImage);
coloredLabels = label2rgb (labeledImage, 'hsv', 'k', 'shuffle'); % pseudo random color labels
imshow(labeledImage, []);
Of course if you like really compact code, the 2nd, 3rd, and 4th lines can be combined into one line.
9 Comments
Tomas
on 1 Apr 2014
I need to normalize distance pixels in image,
I want black pixels were clustered, I must normalize distance pixels.
Image Analyst
on 1 Apr 2014
What you say is unclear. Do you want the distance of every single black pixel to every single other black pixel? Or do you want the distance between closest black pixels? If it's the latter, check out bwdist(). I don't see any reason for the former. I also don't know what "normalizing" means in the context you show.
As the image above, i want to have 4 clusters, I gotta have this output
each color is one cluster. My problem is, I have output now
I don"t know good English, it's hard to explain,
the thing is, when I look at the picture to be logically correct clusters. I need image preprocessing, that I might gain the relevant matrix of the image that I can use for clustering
Image Analyst
on 1 Apr 2014
See attached code (in blue below the image) to produce the image below.
Tomas
on 1 Apr 2014
Image Analyst
on 1 Apr 2014
I don't have the stats toolbox so I can't help you. kmeans seems like it would fail quite easily and often so I don't know why you'd use it instead of something that is robust and foolproof.
Tomas
on 1 Apr 2014
for example, this image, each shape a different color
Image Analyst
on 1 Apr 2014
Is the shape the white objects or the black objects? Either way, it's trivial with labeling and difficult and faulty with kmeans. If you look at the x,y locations of the points then the centroid of the circle is really close to the centroids of the polygons and the polygon pixels go very near the centroid of the circle and might be classified as circle instead of polygons. Good example of why kmeans is not good for connected components labeling.
Arshad Ali
on 10 May 2017
0 votes
Can any one please help me how to normalized pixel area being consumed by each colour. (Normalized area consumed by red colour=No of pixels of Red/( Total no of pixels in the image)
1 Comment
Image Analyst
on 10 May 2017
See color segmentation demos. Once you have a binary image that defines what pixels you consider to be "red", you simply divide the sum of true/1/white pixels in it by the number of pixels in the image.
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