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One of my friend was working on following project:

Below is the microscopic (SEM) image of the surface of stainless steel.

enter image description here

But you can see, it is corroded a little bit (after long exposure to marine environment) and some pits are formed on the surface. Some of the pits are marked in red circle.

He needs to find number of pits in the image and he was counting it manually (imagine, there are nearly 150 images). So I thought of automating this process with any image processing tool.


How can I find the number of pits in this image?

What I tried:

As a first step, I improved the contrast a little bit by closing operation.

import numpy as np
import cv2
from matplotlib import pyplot as plt

img = cv2.imread('6.jpg')
gray = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)
kernel = cv2.getStructuringElement(cv2.MORPH_ELLIPSE,(11,11))

close = cv2.morphologyEx(gray, cv2.MORPH_CLOSE, kernel)

close2 = cv2.add(close,1)
div = (np.float32(gray)+1)/(close2)
div2 = cv2.normalize(div,None, 0,255, cv2.NORM_MINMAX)
div3 = np.uint8(div2)


enter image description here

Then I applied some threshold for 127 and find contours in it. Later these contours are filtered based on their area (there is no specific information on the area, I took a range of 1-10 as an empirical value).

ret, thresh = cv2.threshold(div3, 127,255, cv2.THRESH_BINARY_INV)
temp, contours, hierarchy = cv2.findContours(thresh, cv2.RETR_LIST, cv2.CHAIN_APPROX_NONE)

res = np.zeros(gray.shape,np.uint8)

for cnt in contours:
    if 1.0 < cv2.contourArea(cnt) < 10.0:
        res = cv2.drawContours(res, [cnt], 0, 255, -1)

plt.subplot(121); plt.imshow(img, 'gray'); plt.subplot(122); plt.imshow(res,'gray'); 

But it ended up in a lot of extra noise. See the result below:

enter image description here

Additional Information:

Some test images:

enter image description here enter image description here

share|improve this question
Another way of doing your preprocessing step would be this:… – Stefan van der Walt Feb 17 '15 at 23:28

Your case reminds me of a paper (Human Detection Using a Mobile Platform and Novel Features Derived From a Visual Saliency Mechanism) that calculates Saliency on an image based on on-center ganglion cell notion, i.e. a method that detects bright pixels surrounded by dark areas (or the opposite called off-center cells).

Ganglion cells

To approximate these cells you can use rectangular areas. By the use of integral images, you can speed up the procedure. Check the paper for details.

One more idea would've been convolution of a composite filter. Find a template that is very close to every pit and correlate the template with the image (or use multiple filters for scale/form variation).

share|improve this answer
"bright pixels surrounded by dark areas" that's the point! – Yvon Aug 11 '14 at 23:54

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