# Detecting Circles without using Hough Circles

I have an image of a circle, I want to find the circle but not using hough circles.

I found a way, linked here.

But I can't find the transition coordinates from white to black as I don't know the x and y coordinates in the circle. What other methods are there, or how can I make that approach work?

This is my test image:

Another approach (that is useful for more than just circles) would be to find the image contours and do image moment analysis on the circle to find it's centre of mass:

I recommend learning them if you'e going to move forward with image processing. They're pretty helpful approaches that transform images into more useful structures.

• Thank you so much @Lamar Latrell May 24, 2016 at 15:49
• Lamar! Your knowledge is outstanding! Can you please msg me at : [email protected] ? I'm a computer science student and i'd could really use a quick help! Thank you so much! May 24, 2016 at 16:44
• @RoiMulia, I suggest you use StackOverflow for a faster response :) May 24, 2016 at 19:55

One possible approach is to first `threshold` the image to get rid of some of the noise around the circle. Then you can extract the edge of the circle using `Canny` edge detection. Finally, `findNonZero` to get a list of pixel coordinates.

I first did a quick prototype with Python:

``````import cv2
import numpy as np

mask = cv2.threshold(img, 127, 255, cv2.THRESH_BINARY)[1]
points = np.array([p[0] for p in cv2.findNonZero(edges)])
``````

And then ported it to C++, adding some extra code to save all the intermediate images and plot the found pixels.

``````#include <opencv2/opencv.hpp>

int main()
{

cv::Mat edges;

cv::imwrite("circle_2.png", edges);

std::vector<cv::Point2i> points;
cv::findNonZero(edges, points);

cv::Mat output(cv::Mat::zeros(edges.size(), CV_8UC3));
for (auto const& p : points) {
output.at<cv::Vec3b>(p) = cv::Vec3b(127, 255, 127);
}
cv::imwrite("circle_3.png", output);
}
``````

Output of `threshold`:

Output of `Canny`:

Re-plotted pixels:

• If you need the circle parameters, you can use `minEnclosingCircle`
– Miki
May 23, 2016 at 23:59