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I'm working with a particular type of images. Those, after obtaining the spectrum (aply the fft), I obtain the following picture:

enter image description here

So I want to select one of those "points" (called orders of the spectrum), at the following way:

enter image description here

I mean "draw" a circle aroud it, select the pixels inside and then center those pixels(without the "border circle"):

enter image description here

How can I perform it using OpenCV? Does exist any function?

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    Which of the points in particular? The highest peak? Jun 17, 2014 at 15:22
  • "Yes and no". I selected the highest peak because of the minmaxLoc function. But I have to be able to select one of those "automatically" and then center. Jun 17, 2014 at 15:25
  • 2
    So you want to redraw the image, with the selected peak/point at the centre? I.e. crop out the rest? Jun 17, 2014 at 15:35
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    is your question how to find/select the "points" or how to select the region around one already found point?
    – Micka
    Jun 17, 2014 at 15:40
  • 1
    For finding the peaks: Maybe first threshold (Otsu?), and then use hough circles or contours to find resulting circles... Jun 17, 2014 at 17:08

2 Answers 2

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EDIT: As per discussion below, to 'select' a circle, a mask can be used:

# Build mask
mask = np.zeros(image_array.shape, dtype=np.uint8)
cv2.circle(mask, max_loc, circle_radius, (255, 255, 255), -1, 8, 0)

# Apply mask (using bitwise & operator)
result_array = image_array & mask

# Crop/center result (assuming max_loc is of the form (x, y))
result_array = result_array[max_loc[1] - circle_radius:max_loc[1] + circle_radius,
                            max_loc[0] - circle_radius:max_loc[0] + circle_radius, :]

This leaves me with something like:

Masked and cropped image

Another edit: This might be useful for finding your peaks.

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  • The problem is that I want to "select a circle" instead of a "box" Jun 17, 2014 at 16:33
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    Images are always rectangular, so what do you mean by "selecting"? In general its mostly done by drawing al filled white circle on black background and use that as a mask for copying or processing pixel.
    – Micka
    Jun 17, 2014 at 16:44
  • Yes, I need to crop that "circular region" and then center it. But I dont know how to accomplish it, because my idea was to use the bitwise and operator but I can't define an appropiate "mask". I was thinking in 'roi = np.zeros(image.shape);cv2.circle(roi, max_loc, 50, 255, -1, 8, 0); cv2.bitwise_and(nodcterm, nodcterm, mask=roi)' but I get an error: error: /build/buildd/opencv-2.4.2+dfsg/modules/core/src/arithm.cpp:1035: error: (-215) (mask.type() == CV_8UC1 || mask.type() == CV_8SC1) in function binary_op Jun 17, 2014 at 17:02
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    Try make the mask 8-bit by creating it with roi = np.zeros(image.shape, dtype=np.uint8) or something similar. Jun 17, 2014 at 17:18
  • I couldn't get the bitwise_and function to work so I did it the numpy way (see the updated answer). Jun 18, 2014 at 12:53
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Not sure if that's what you asked, but if you just want to center around such a point, you can do it with subregions:

cv::Point center(yourCenterX_FromLeft, yourCenterY_fromTop);
int nWidth = yourDesiredWidthAfterCentering;  // or 2* circle radius
int nHeight= yourDesiredHeightAfterCentering; // or 2* circle radius

// specify the subregion: top-left position and width/height
cv::Rect subImage = cv::Rect(center.x-nWidth/2, center.y-nHeight/2, nWidth, nHeight);

// extract the subregion out of the original image. remark that no data is copied but original data is referenced
cv::Mat subImageCentered = originalImage(subImage);

cv::imshow("subimage", subImageCentered);

didnt test, but that should be ok.

EDIT: sorry, it's c++ but I think subregions will work similar in python?!?

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