OpenCV-Python官方文档中文翻译19:Canny Edge Detection
作者:互联网
Canny Edge Detection
Goal
In this chapter, we will learn about
- Concept of Canny edge detection
- OpenCV functions for that : cv.Canny()
- Canny边缘检测的概念
- 函数:cv.Canny()
Theory
Canny Edge Detection is a popular edge detection algorithm. It was developed by John F. Canny in
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It is a multi-stage algorithm and we will go through each stages.#这是一种多阶段的算法,我们将经历每个阶段。
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Noise Reduction#降噪
Since edge detection is susceptible to noise in the image, first step is to remove the noise in the image with a 5x5 Gaussian filter. We have already seen this in previous chapters.
因为边缘检测容易受到图像中的噪声影响,第一步就是用5x5的高斯滤波器去除图像中的噪声。
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Finding Intensity Gradient of the Image#找到图像的梯度强度
Smoothened image is then filtered with a Sobel kernel in both horizontal and vertical direction to get first derivative in horizontal direction ( Gx) and vertical direction ( Gy). From these two images, we can find edge gradient and direction for each pixel as follows:
Edge_Gradient(G)=G2x+G2y−−−−−−−√Angle(θ)=tan−1(GyGx)
Gradient direction is always perpendicular to edges. It is rounded to one of four angles representing vertical, horizontal and two diagonal directions.
然后用sobel内核在平滑图像的水平和垂直方向滤波,得到一阶导数。从这两张图片,我们可以看出每个像素的边缘梯度和方向。
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Non-maximum Suppression#非极大值抑制
After getting gradient magnitude and direction, a full scan of image is done to remove any unwanted pixels which may not constitute the edge. For this, at every pixel, pixel is checked if it is a local maximum in its neighborhood in the direction of gradient. Check the image below:
image
Point A is on the edge ( in vertical direction). Gradient direction is normal to the edge. Point B and C are in gradient directions. So point A is checked with point B and C to see if it forms a local maximum. If so, it is considered for next stage, otherwise, it is suppressed ( put to zero).
In short, the result you get is a binary image with “thin edges”.
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Hysteresis Thresholding#磁滞阈值
This stage decides which are all edges are really edges and which are not. For this, we need two threshold values, minVal and maxVal. Any edges with intensity gradient more than maxVal are sure to be edges and those below minVal are sure to be non-edges, so discarded. Those who lie between these two thresholds are classified edges or non-edges based on their connectivity. If they are connected to “sure-edge” pixels, they are considered to be part of edges. Otherwise, they are also discarded. See the image below:
image
The edge A is above the maxVal, so considered as “sure-edge”. Although edge C is below maxVal, it is connected to edge A, so that also considered as valid edge and we get that full curve. But edge B, although it is above minVal and is in same region as that of edge C, it is not connected to any “sure-edge”, so that is discarded. So it is very important that we have to select minVal and maxVal accordingly to get the correct result.
This stage also removes small pixels noises on the assumption that edges are long lines.
So what we finally get is strong edges in the image.
Canny Edge Detection in OpenCV
OpenCV puts all the above in single function, cv.Canny(). We will see how to use it. First argument is our input image. Second and third arguments are our minVal and maxVal respectively. Third argument is aperture_size. It is the size of Sobel kernel used for find image gradients. By default it is 3. Last argument is L2gradient which specifies the equation for finding gradient magnitude. If it is True, it uses the equation mentioned above which is more accurate, otherwise it uses this function: Edge_Gradient(G)=|Gx|+|Gy|. By default, it is False.
import numpy as np
import cv2 as cv
from matplotlib import pyplot as plt
img = cv.imread("messi5.jpg",0)
edges = cv.Canny(img,100,200)
plt.subplot(121),plt.imshow(img,camp = 'gray')
plt.title('origianl image'),plt.xticks([]), plt.yticks([])
plt.subplot(122),plt.imshow(edges,cmap = 'gray')
plt.title('Edge Image'), plt.xticks([]), plt.yticks([])
plt.show()
See the result below:
image
Additional Resources
- Canny edge detector at Wikipedia
- Canny Edge Detection Tutorial by Bill Green, 2002.
Exercises
- Write a small application to find the Canny edge detection whose threshold values can be varied using two trackbars. This way, you can understand the effect of threshold values.
标签:direction,plt,中文翻译,19,image,edges,Python,edge,Canny 来源: https://blog.csdn.net/qq_34871277/article/details/114103686