how to Identify the centre of atom

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le 12 Avr 2024 à 6:34
Commenté : DGM le 13 Avr 2024 à 23:56
how to Identify the centre of gravity like the fllowing figure

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DGM
DGM le 12 Avr 2024 à 10:08
Ran in:
Here's a start.
% the original image
inpict = imread('image.png');
inpict = im2gray(inpict);
% crop out the subimages
A0 = imcrop(inpict,[31.51 30.51 277.98 277.98]);
B0 = imcrop(inpict,[326.51 30.51 277.98 277.98]);
C0 = imcrop(inpict,[621.51 30.51 277.98 277.98]);
% process A
A = imflatfield(A0,10);
A = adapthisteq(A);
A = imopen(A,strel('disk',3,0));
maskA = imextendedmax(A,50); % roughly get a mask of minimal regions
maskA = imclearborder(maskA); % get rid of partial blobs
imshow(maskA,'border','tight')
% process B
maskB = imextendedmin(B0,80); % roughly get a mask of minimal regions
maskB = imclearborder(maskB); % get rid of partial blobs
imshow(maskB,'border','tight')
% process C
C = imflatfield(C0,10);
C = adapthisteq(C);
maskC = imextendedmin(C,80); % roughly get a mask of minimal regions
maskC = imclearborder(maskC); % get rid of partial blobs
imshow(maskC,'border','tight')
% for example, find the centroids of the blobs in one of the masks
Sc = regionprops(maskC,'centroid');
centers = vertcat(Sc.Centroid);
% mark the centers on the mask
hold on;
plot(centers(:,1),centers(:,2),'x','linewidth',2)
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Image Analyst
Image Analyst le 13 Avr 2024 à 14:57
@DGM in your first response, since he specifically wanted the center of gravity, you should have used "WeightedCentroid" instead of 'Centroid', though for this image it looks like they should be really close to the same location.
Maybe, after field flattening, you can use kmeans to classify a pixel as light, dark, or gray.
DGM
DGM le 13 Avr 2024 à 23:56
Ran in:
That's a pretty good point. I'll throw in an example just for sake of completeness.
% the original image
inpict = imread('image.png');
inpict = im2gray(inpict);
% crop out the subimages (i'm just going to use C)
C0 = imcrop(inpict,[621.51 30.51 277.98 277.98]);
% process C (same as before)
C = imflatfield(C0,10);
C = adapthisteq(C);
maskC = imextendedmin(C,80); % roughly get a mask of minimal regions
maskC = imclearborder(maskC); % get rid of partial blobs
% for example, find the weighted centroids of the blobs in one of the masks
% in this call to regionprops, it's important to make sure that the second argument
% has a light-on-dark polarity, hence the use of imcomplement() in the case of B or C.
% A is already light-on-dark, so we wouldn't need to complement it.
Sc = regionprops(maskC,imcomplement(C),'weightedcentroid');
centers = vertcat(Sc.WeightedCentroid);
imshow(maskC,'border','tight'); hold on;
plot(centers(:,1),centers(:,2),'x','linewidth',2)

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