python 實現(xiàn)Harris角點檢測算法

更新時間：2020年12月11日 10:23:30 作者：我堅信陽光燦爛

這篇文章主要介紹了python 實現(xiàn)Harris角點檢測算法,幫助大家更好的利用python處理圖像，感興趣的朋友可以了解下

算法流程：

將圖像轉(zhuǎn)換為灰度圖像
利用Sobel濾波器求出海森矩陣 (Hessian matrix) :

將高斯濾波器分別作用于Ix²、Iy²、IxIy
計算每個像素的 R= det(H) - k(trace(H))²。det(H)表示矩陣H的行列式，trace表示矩陣H的跡。通常k的取值范圍為[0.04,0.16]。
滿足 R>=max(R) * th 的像素點即為角點。th常取0.1。

Harris算法實現(xiàn)：

import cv2 as cv 
import numpy as np
import matplotlib.pyplot as plt


# Harris corner detection
def Harris_corner(img):

	## Grayscale
	def BGR2GRAY(img):
		gray = 0.2126 * img[..., 2] + 0.7152 * img[..., 1] + 0.0722 * img[..., 0]
		gray = gray.astype(np.uint8)
		return gray

	## Sobel
	def Sobel_filtering(gray):
		# get shape
		H, W = gray.shape

		# sobel kernel
		sobely = np.array(((1, 2, 1),
						(0, 0, 0),
						(-1, -2, -1)), dtype=np.float32)

		sobelx = np.array(((1, 0, -1),
						(2, 0, -2),
						(1, 0, -1)), dtype=np.float32)

		# padding
		tmp = np.pad(gray, (1, 1), 'edge')

		# prepare
		Ix = np.zeros_like(gray, dtype=np.float32)
		Iy = np.zeros_like(gray, dtype=np.float32)

		# get differential
		for y in range(H):
			for x in range(W):
				Ix[y, x] = np.mean(tmp[y : y + 3, x : x + 3] * sobelx)
				Iy[y, x] = np.mean(tmp[y : y + 3, x : x + 3] * sobely)
			
		Ix2 = Ix ** 2
		Iy2 = Iy ** 2
		Ixy = Ix * Iy

		return Ix2, Iy2, Ixy


	# gaussian filtering
	def gaussian_filtering(I, K_size=3, sigma=3):
		# get shape
		H, W = I.shape

		## gaussian
		I_t = np.pad(I, (K_size // 2, K_size // 2), 'edge')

		# gaussian kernel
		K = np.zeros((K_size, K_size), dtype=np.float)
		for x in range(K_size):
			for y in range(K_size):
				_x = x - K_size // 2
				_y = y - K_size // 2
				K[y, x] = np.exp( -(_x ** 2 + _y ** 2) / (2 * (sigma ** 2)))
		K /= (sigma * np.sqrt(2 * np.pi))
		K /= K.sum()

		# filtering
		for y in range(H):
			for x in range(W):
				I[y,x] = np.sum(I_t[y : y + K_size, x : x + K_size] * K)
				
		return I

	# corner detect
	def corner_detect(gray, Ix2, Iy2, Ixy, k=0.04, th=0.1):
		# prepare output image
		out = np.array((gray, gray, gray))
		out = np.transpose(out, (1,2,0))

		# get R
		R = (Ix2 * Iy2 - Ixy ** 2) - k * ((Ix2 + Iy2) ** 2)

		# detect corner
		out[R >= np.max(R) * th] = [255, 0, 0]

		out = out.astype(np.uint8)

		return out

	
	# 1. grayscale
	gray = BGR2GRAY(img)

	# 2. get difference image
	Ix2, Iy2, Ixy = Sobel_filtering(gray)

	# 3. gaussian filtering
	Ix2 = gaussian_filtering(Ix2, K_size=3, sigma=3)
	Iy2 = gaussian_filtering(Iy2, K_size=3, sigma=3)
	Ixy = gaussian_filtering(Ixy, K_size=3, sigma=3)

	# 4. corner detect
	out = corner_detect(gray, Ix2, Iy2, Ixy)

	return out


# Read image
img = cv.imread("../qiqiao.jpg").astype(np.float32)

# Harris corner detection
out = Harris_corner(img)

cv.imwrite("out.jpg", out)
cv.imshow("result", out)
cv.waitKey(0)
cv.destroyAllWindows()