2

I am using the built-in Sobel edge operation in openCV for some image processing purpose but the results are not as expected for the function.

sobel=cv2.Sobel(img,cv2.CV_64F,0,1,ksize=3)
cv2.imshow('Sobel Image',sobel)

I am attaching a sample image of the input image and the resultant output which I have got. Please help me regarding this. On the left is the input image and on the right is the resultant image.

enter image description here

3
  • I don’t know much about cv.imshow, but a lot of this type of image display assumes floating-point data is in the [0,1] range. In your case it is a lot larger (input image in range [0,255]), and consequently the display doesn’t show the image properly. You want to scale the image intensities to a proper range before display. Jul 4, 2018 at 14:54
  • imshow() accepts integers (8uint, 16uint or 32int), and floating-point numbers (32 and 64-bit). Besides 8uint, the other ones are mapped to [0-255] range before displayng. See more on opencv docs: docs.opencv.org/4.2.0/d7/dfc/… Mar 15, 2020 at 12:10
  • please provide your input image so that other users could test it Mar 15, 2020 at 12:19

3 Answers 3

7

You have to make two sobel operations and blend them. Also, be sure you are working on a gray-scaled image, otherwise I think it will process each channel separately..

gray = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)

grad_x = cv2.Sobel(gray, cv2.CV_64F, 1, 0, ksize=3)
grad_y = cv2.Sobel(gray, cv2.CV_64F, 0, 1, ksize=3)

abs_grad_x = cv2.convertScaleAbs(grad_x)
abs_grad_y = cv2.convertScaleAbs(grad_y)

grad = cv2.addWeighted(abs_grad_x, 0.5, abs_grad_y, 0.5, 0)

cv2.imshow('grad X',grad_x)
cv2.imshow('grad Y',grad_y)
cv2.imshow('Sobel Image',grad)
cv2.waitKey()

The results for x, y and blended image are:

enter image description here

If you need to reduce noise, you may apply a Gaussian Blur. Refer to: https://docs.opencv.org/4.2.0/d2/d2c/tutorial_sobel_derivatives.html

2
  • What's the purpose of cv2.convertScaleAbs?
    – Haidepzai
    Nov 14, 2021 at 21:22
  • @Haidepzai It takes the output from Sobel operation and converts it back to an 8-bit image (CV_8U type). Nov 16, 2021 at 17:29
5

The Sobel operator gives you the gradient in x or y direction. For Sobel-based edge detection you compare the magnitude of the gradient to a threshold to decide which pixels are edges. The code below shows how to compute the gradient (magnitude) and display it normalized.

import cv2
import numpy as np

def sobel_edge_detector(img):
    grad_x = cv2.Sobel(img, cv2.CV_64F, 1, 0)
    grad_y = cv2.Sobel(img, cv2.CV_64F, 0, 1)
    grad = np.sqrt(grad_x**2 + grad_y**2)
    grad_norm = (grad * 255 / grad.max()).astype(np.uint8)
    cv2.imshow('Edges', grad_norm)
    cv2.waitKey(0)

Note: OpenCV's tutorial page on Sobel Derivatives uses the following calculations, but they're both incorrect.

// converting back to CV_8U
convertScaleAbs(grad_x, abs_grad_x);
convertScaleAbs(grad_y, abs_grad_y);
...
addWeighted(abs_grad_x, 0.5, abs_grad_y, 0.5, 0, grad);
3
  • This is a very good explanation and should be the accepted answer.
    – Theta
    Jun 27, 2020 at 21:39
  • Can you please explain why is convertScaleAbs incorrect
    – Ankit
    Sep 17, 2020 at 15:07
  • @Ankit The tutorial page states "sometimes the following simpler equation is used" and gives the sum of absolute gradient components as an approximation to the gradient magnitude calculation. Even then, the code uses convertScaleAbs which can cause clipping of values due to converting to 8-bit, then takes the average gradient component, not the sum. The resulting value can be visualised usefully to give an indication of gradient magnitude but it is not strictly a gradient magnitude or even an approximation of one.
    – Vic
    Sep 18, 2020 at 5:02
-1

For this image, you need to threshold the image before using Sobel operator to reduce noise.

image = cv2.imread('image.jpg',cv2.IMREAD_UNCHANGED)

gray = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)

ret,binary = cv2.threshold(gray, 0, 255, cv2.THRESH_OTSU | cv2.THRESH_BINARY_INV)

H = cv2.Sobel(binary, cv2.CV_8U, dx=0, dy=1, ksize=3)
V = cv2.Sobel(binary, cv2.CV_8U, dx=1, dy=0, ksize=3)

H V

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  • 1
    You need to binarize the image before using Sobel operator. NO it works for grayscale images too.
    – Jeru Luke
    Jul 4, 2018 at 7:32
  • 1
    @JeruLuke It does indeed. I have to rephrase myself. I meant that in OP's case he/she needed to threshold the image to reduce noise before using Sobel.
    – zindarod
    Jul 4, 2018 at 7:40
  • 1
    Thresholding doesn’t reduce noise. Also, your output is still not correct, as the gradient is supposed to have positive and negative values. Jul 4, 2018 at 14:51

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