How do I separate the two connected circles in the image below, using MATLAB? I have tried using imerode, but this does not give good results. Eroding does not work, because in order to erode enough to separate the circles, the lines disappear or become mangled. In other starting pictures, a circle and a line overlap, so isolating the overlapping objects won't work either.

The image shows objects identified by bwboundaries, each object painted a different color. As you can see, the two light blue circles are joined, and I want to disjoin them, producing two separate circles. Thanks

  • I would suggest using Hough transform (link1, link2) to identify circle centers - you will then get that the joined shape contains two circles.
    – Dev-iL
    Nov 13 '14 at 11:26
  • @Dev-iL - MATLAB provides imfindcircles which is essentially the Circular Hough Transform and basically link #2. This was available as of R2012a. I'm assuming link #2 was created before this was available in MATLAB. However, I agree with your suggestion though!
    – rayryeng
    Nov 15 '14 at 8:16

I would recommend you use the Circular Hough Transform through imfindcircles. However, you need version 8 of the Image Processing Toolbox, which was available from version R2012a and onwards. If you don't have this, then unfortunately this won't work :(... but let's go with the assumption that you do have it. However, if you are using something older than R2012a, Dev-iL in his/her comment above linked to some code on MATLAB's File Exchange on an implementation of this, most likely created before the Circular Hough Transform was available: http://www.mathworks.com/matlabcentral/fileexchange/9168-detect-circles-with-various-radii-in-grayscale-image-via-hough-transform/

This is a special case of the Hough Transform where you are trying to find circles in your image rather than lines. The beauty with this is that you are able to find circles even when the circle is partially completed or overlapping.

I'm going to take the image that you provided above and do some post-processing on it. I'm going to convert the image to binary, and remove the border, which is white and contains the title. I'm also going to fill in any holes that result so that all of the objects are filled in with solid white. There is also some residual quantization noise after I do this step, so I'm going to a small opening with a 3 x 3 square element. After, I'm going to close the shapes with a 3 x 3 square element, as I see that there are noticeable gaps in the shapes. Therefore:

Therefore, directly reading in your image from where you've posted it:

im = imread('http://s29.postimg.org/spkab8oef/image.jpg'); %// Read in the image
im_gray = im2double(rgb2gray(im)); %// Convert to grayscale, then [0,1]
out = imclearborder(im_gray > 0.6); %// Threshold using 0.6, then clear the border
out = imfill(out, 'holes'); %// Fill in the holes
out = imopen(out, strel('square', 3));
out = imclose(out, strel('square', 3));

This is the image I get:

enter image description here

Now, apply the Circular Hough Transform. The general syntax for this is:

[centres, radii, metric] = imfindcircles(img, [start_radius, end_radius]);

img would be the binary image that contains your shapes, start_radius and end_radius would be the smallest and largest radius of the circles you want to find. The Circular Hough Transform is performed such that it will find any circles that are within this range (in pixels). The outputs are:

  1. centres: Which returns the (x,y) positions of the centres of each circle detected
  2. radii: The radius of each circle
  3. metric: A measure of purity of the circle. Higher values mean that the shape is more probable to be a circle and vice-versa.

I searched for circles having a radius between 30 and 60 pixels. Therefore:

[centres, radii, metric] = imfindcircles(out, [30, 60]);

We can then demonstrate the detected circles, as well as the radii by a combination of plot and viscircles. Therefore:

hold on;
plot(centres(:,1), centres(:,2), 'r*'); %// Plot centres
viscircles(centres, radii, 'EdgeColor', 'b'); %// Plot circles - Make edge blue

Here's the result:

enter image description here

As you can see, even with the overlapping circles towards the top, the Circular Hough Transform was able to detect two distinct circles in that shape.

Edit - November 16th, 2014

You wish to ensure that the objects are separated before you do bwboundaries. This is a bit tricky to do. The only way I can see you do this is if you don't even use bwboundaries at all and do this yourself. I'm assuming you'll want to analyze each shape's properties by themselves after all of this, so what I suggest you do is iterate through every circle you have, then place each circle on a new blank image, do a regionprops call on that shape, then append it to a separate array. You can also keep track of all of the circles by having a separate array that adds the circles one at a time to this array.

Once you've finished with all of the circles, you'll have a structure array that contains all of the measured properties for all of the measured circles you have found. You would use the array that contains only the circles from above, then use these and remove them from the original image so you get just the lines. You'd then call one more regionprops on this image to get the information for the lines and append this to your final structure array.

Here's the first part of the procedure I outlined above:

num_circles = numel(radii); %// Get number of circles
struct_reg = []; %// Save the shape analysis per circle / line here

%// For creating our circle in the temporary image
[X,Y] = meshgrid(1:size(out,2), 1:size(out,1));

%// Storing all of our circles in this image
circles_img = false(size(out));

for idx = 1 : num_circles %// For each circle we have...        
    %// Place our circle inside a temporary image    
    r = radii(idx);
    cx = centres(idx,1); cy = centres(idx,2);
    tmp = (X - cx).^2 + (Y - cy).^2 <= r^2;        

    % // Save in master circle image
    circles_img(tmp) = true;

    %// Do regionprops on this image and save    
    struct_reg = [struct_reg; regionprops(tmp)]; 

The above code may be a bit hard to swallow, but let's go through it slowly. I first figure out how many circles we have, which is simply looking at how many radii we have detected. I keep a separate array called struct_reg that will append a regionprops struct for each circle and line we have in our image. I use meshgrid to determine the (X,Y) co-ordinates with respect to the image containing our shapes so that I can draw one circle onto a blank image at each iteration. To do this, you simply need to find the Euclidean distance with respect to the centre of each circle, and set the pixels to true only if that location has its distance less than r. After doing this operation, you will have created only one circle and filtered all of them out. You would then use regionprops on this circle, add it to our circles_img array, which will only contain the circles, then continue with the rest of the circles.

At this point, we will have saved all of our circles. This is what circles_img looks like so far:

enter image description here

You'll notice that the circles drawn are clean, but the actual circles in the original image are a bit jagged. If we tried to remove the circles with this clean image, you will get some residual pixels along the border and you won't completely remove the circles themselves. To illustrate what I mean, this is what your image looks like if I tried to remove the circles with circles_img by itself:

enter image description here

... not good, right?

If you want to completely remove the circles, then do a morphological reconstruction through imreconstruct where you can use this image as the seed image, and specify the original image to be what we're working on. The job of morphological reconstruction is essentially a flood fill. You specify seed pixels, and an image you want to work on, and the job of imreconstruct is from these seeds, flood fill with white until we reach the boundaries of the objects that the seed pixels resided in. Therefore:

out_circles = imreconstruct(circles_img, out);

Therefore, we get this for our final reconstructed circles image:

enter image description here

Great! Now, use this and remove the circles from the original image. Once you do this, run regionprops again on this final image and append to your struct_reg variable. Obviously, save a copy of the original image before doing this:

out_copy = out;
out_copy(out_circles) = false;
struct_reg = [struct_reg; regionprops(out_copy)];

Just for sake of argument, this is what the image looks like with the circles removed:

enter image description here

Now, we have analyzed all of our shapes. Bear in mind I did the full regionprops call because I don't know exactly what you want in your analysis... so I just decided to give you everything.

Hope this helps!

  • Excellent! But I need to separate the two circles in the image, so that regionprops detects to separate objects. Is that possible?
    – tsorn
    Nov 16 '14 at 11:47
  • I do of course mean bwboundaries, not regionprops. I need all objects separated in bwboundaries, also in cases where a circle and a line overlap. The structure of the separated objects do not matter much, as long as a circle remains a circle and a line remains a line.
    – tsorn
    Nov 16 '14 at 12:34
  • @tsorn - Done. Take a look at my edits. I also had to change my original code from my first post as your image has a lot of quantization noise. I had to remove those through morphology.
    – rayryeng
    Nov 16 '14 at 17:58
  • 1
    @rayreng Exactly what I needed. Well done, thank you.
    – tsorn
    Nov 17 '14 at 15:07

erosion is the way to go. You should probably use a larger structuring element.

  • Doing this may also eliminate the lines in the image.
    – rayryeng
    Nov 15 '14 at 20:30

How about

1 erode

2 detect your objects

3 dilate each object for itself using the same structuring element

  • 1
    Eroding does not work, because in order to erode enough to separate the circles, the lines disappear or become mangled. In other starting pictures, a circle and a line overlap, so isolating the overlapping objects won't work either.
    – tsorn
    Nov 13 '14 at 14:06

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.