这篇文章主要介绍“Python+OpenCV之形态学的操作方法是什么”的相关知识,小编通过实际案例向大家展示操作过程,操作方法简单快捷,实用性强,希望这篇“Python+OpenCV之形态学的操作方法是什么”文章能帮助大家解决问题。
一、 腐蚀与膨胀
1.1 腐蚀操作
import cv2 import numpy as np img = cv2.imread('DataPreprocessing/img/dige.png') cv2.imshow("img", img) cv2.waitKey(0) cv2.destroyAllWindows()
dige.png原图1展示(注: 没有原图的可以截图下来保存本地。
腐蚀1轮次之后~ (iterations = 1)
kernel = np.ones((3, 3), np.uint8) erosion = cv2.erode(img, kernel, iterations=1) cv2.imshow('erosion', erosion) cv2.waitKey(0) cv2.destroyAllWindows()
腐蚀结果展示图2:
腐蚀圆多次的效果,以及腐蚀原理
pie = cv2.imread('DataPreprocessing/img/pie.png') cv2.imshow('pie', pie) cv2.waitKey(0) cv2.destroyAllWindows()
pie.png原图3:
腐蚀原理, 其中滤波器的大小越大腐蚀的程度越大 图4:
kernel = np.ones((30, 30), np.uint8) erosion_1 = cv2.erode(pie, kernel, iterations=1) erosion_2 = cv2.erode(pie, kernel, iterations=2) erosion_3 = cv2.erode(pie, kernel, iterations=3) res = np.hstack((erosion_1, erosion_2, erosion_3)) cv2.imshow('res', res) cv2.waitKey(0) cv2.destroyAllWindows()
圆腐蚀三次结果展示图5:
1.2 膨胀操作
kernel = np.ones((3, 3), np.uint8) dige_dilate = erosion dige_dilate = cv2.dilate(erosion, kernel, iterations=1) cv2.imshow('dilate', dige_dilate) cv2.waitKey(0) cv2.destroyAllWindows()
膨胀之前图2,发现线条变粗,跟原图对比的线条相差无几,但是没了那些长须装的噪音,图6:
膨胀圆多次的效果,以及膨胀原理与腐蚀相反,有白色点的滤波器则滤波器内数据全变为白色。
pie = cv2.imread('DataPreprocessing/img/pie.png') kernel = np.ones((30, 30), np.uint8) dilate_1 = cv2.dilate(pie, kernel, iterations=1) dilate_2 = cv2.dilate(pie, kernel, iterations=2) dilate_3 = cv2.dilate(pie, kernel, iterations=3) res = np.hstack((dilate_1, dilate_2, dilate_3)) cv2.imshow('res', res) cv2.waitKey(0) cv2.destroyAllWindows()
膨胀圆3次的结果展示,图7:
二、 开运算与闭运算
2.1 开运算
# 开:先腐蚀,再膨胀 img = cv2.imread('DataPreprocessing/img/dige.png') kernel = np.ones((5, 5), np.uint8) opening = cv2.morphologyEx(img, cv2.MORPH_OPEN, kernel) cv2.imshow('opening', opening) cv2.waitKey(0) cv2.destroyAllWindows()
将原图1,先腐蚀,再膨胀,得到开运算结果图8:
2.2 闭运算
# 闭:先膨胀,再腐蚀 img = cv2.imread('DataPreprocessing/img/dige.png') kernel = np.ones((5, 5), np.uint8) closing = cv2.morphologyEx(img, cv2.MORPH_CLOSE, kernel) cv2.imshow('closing', closing) cv2.waitKey(0) cv2.destroyAllWindows()
将原图1,先膨胀,再腐蚀,得到开运算结果图9:
三、梯度运算
拿原图3的圆,做5次膨胀,5次腐蚀,相减得到其轮廓。
# 梯度=膨胀-腐蚀 pie = cv2.imread('DataPreprocessing/img/pie.png') kernel = np.ones((7, 7), np.uint8) dilate = cv2.dilate(pie, kernel, iterations=5) erosion = cv2.erode(pie, kernel, iterations=5) res = np.hstack((dilate, erosion)) cv2.imshow('res', res) cv2.waitKey(0) cv2.destroyAllWindows() gradient = cv2.morphologyEx(pie, cv2.MORPH_GRADIENT, kernel) cv2.imshow('gradient', gradient) cv2.waitKey(0) cv2.destroyAllWindows()
得到梯度运算结果图10:
四、礼帽与黑帽
4.1 礼帽
礼帽 = 原始输入-开运算结果
# 礼帽 img = cv2.imread('DataPreprocessing/img/dige.png') tophat = cv2.morphologyEx(img, cv2.MORPH_TOPHAT, kernel) cv2.imshow('tophat', tophat) cv2.waitKey(0) cv2.destroyAllWindows()
得到礼帽结果图11:
4.2 黑帽
黑帽 = 闭运算-原始输入
# 黑帽 img = cv2.imread('DataPreprocessing/img/dige.png') blackhat = cv2.morphologyEx(img, cv2.MORPH_BLACKHAT, kernel) cv2.imshow('blackhat ', blackhat) cv2.waitKey(0) cv2.destroyAllWindows()
得到礼帽结果图12: