# How to detect edge and crop an image in Python

I'm new to Image Processing in Python and I'm trying to solve a common problem. I have an image having a signature of a person. I want to find the edges and crop it to fit the signature in the image.

## Input Image ## Expected Output I tried Canny Edge Detection and cropping the image using a list of existing solutions (articles & answers) using PIL, CV2, but none seem to work. I'm looking for a working solution.

Some solutions I tried:

and many more... None worked although seems very simple. I encountered either errors or not expected output using any of the existing solutions.

• Why do you go for edge detection when what you want is a binarization ?? – Yves Daoust Jun 6 '17 at 7:00
• Go over all points and always keep the `max(x)` and `max(y),` and `min(x)` and `min(y).` Then your signature is contained in the rectangle of the last values above. Add some white space (d) with `max(y)+d,` `min(y)-d,` etc. – boardrider Jun 7 '17 at 11:22

What you need is thresholding. In OpenCV you can accomplish this using `cv2.threshold()`.

I took a shot at it. My approach was the following:

1. Convert to grayscale
2. Threshold the image to only get the signature and nothing else
3. Find where those pixels are that show up in the thresholded image
4. Crop around that region in the original grayscale
5. Create a new thresholded image from the crop that isn't as strict for display

Here was my attempt, I think it worked pretty well.

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

rsz_img = cv2.resize(img, None, fx=0.25, fy=0.25) # resize since image is huge
gray = cv2.cvtColor(rsz_img, cv2.COLOR_BGR2GRAY) # convert to grayscale

# threshold to get just the signature
retval, thresh_gray = cv2.threshold(gray, thresh=100, maxval=255, type=cv2.THRESH_BINARY)

# find where the signature is and make a cropped region
points = np.argwhere(thresh_gray==0) # find where the black pixels are
points = np.fliplr(points) # store them in x,y coordinates instead of row,col indices
x, y, w, h = cv2.boundingRect(points) # create a rectangle around those points
x, y, w, h = x-10, y-10, w+20, h+20 # make the box a little bigger
crop = gray[y:y+h, x:x+w] # create a cropped region of the gray image

# get the thresholded crop
retval, thresh_crop = cv2.threshold(crop, thresh=200, maxval=255, type=cv2.THRESH_BINARY)

# display
cv2.imshow("Cropped and thresholded image", thresh_crop)
cv2.waitKey(0)
``````

And here's the result: • Wow, it worked like a charm..! Thanks for the answer. To save the image, I just replaced the last 2 lines with `cv2.imwrite('output.png',thresh_crop)` – Kartik Rokde Jun 6 '17 at 9:00
• Yep! Do note that I resized it though so if you want the original size, better comment out that resize line and input `img` instead of `rsz_img` in `cvtColor()` on the following line. – alkasm Jun 6 '17 at 9:02
• @KartikRokde note that if you are going to do this on images that might be worse (darker shadows, paper curled a bit, background behind the sheet) you might need to use a little more sophisticated methods. This Overflow answer is more robust by processing out those difficulties first. It's worth a look! – alkasm Jun 6 '17 at 9:06