系列文章目录
文章目录
- 系列文章目录
- 前言
- 一、全局阈值
- 1.效果图
- 2.源码
- 二、滑动改变阈值(滑动条)
- 1.效果图
- 2.源码
- 三、自适应阈值分割
- 1.效果图
- 2.源码
- 3.GaussianBlur()函数去噪
- 四、参数解释
- 1.cv2.threshold(src, thresh, maxval, type)
- 总结
前言
一、全局阈值
原图:
整幅图采用一个阈值,与图片的每一个像素灰度进行比较,重新赋值;
1.效果图
2.源码
import cv2
import matplotlib.pyplot as plt
#设定阈值
thresh=130
#载入原图,并转化为灰度图像
img_original=cv2.imread(r'E:\py\python3.7\test2\test14yuzhi\cell.png',0)
img_original=cv2.resize(img_original,(0,0),fx=0.3,fy=0.3)
#采用5种阈值类型(thresholding type)分割图像
retval1,img_binary=cv2.threshold(img_original,thresh,255,cv2.THRESH_BINARY)
retval2,img_binary_invertion=cv2.threshold(img_original,thresh,255,cv2.THRESH_BINARY_INV)
retval3,img_trunc=cv2.threshold(img_original,thresh,255,cv2.THRESH_TRUNC)
retval4,img_tozero=cv2.threshold(img_original,thresh,255,cv2.THRESH_TOZERO)
retval5,img_tozero_inversion=cv2.threshold(img_original,thresh,255,cv2.THRESH_TOZERO_INV)
#采用plt.imshow()显示图像
imgs=[img_original,img_binary,img_binary_invertion,img_trunc,img_tozero,img_tozero_inversion]
titles=['original','binary','binary_inv','trunc','tozero','tozero_inv']
for i in range(6):
plt.subplot(2,3,i+1)
plt.imshow(imgs[i],'gray')
plt.title(titles[i])
plt.xticks([])
plt.yticks([])
plt.show()
二、滑动改变阈值(滑动条)
1.效果图
2.源码
代码如下(示例):
import cv2
import numpy as np
import matplotlib.pyplot as plt
#载入原图,转化为灰度图像,并通过cv2.resize()等比调整图像大小
img_original=cv2.imread(r'E:\py\python3.7\test2\test14yuzhi\cell.png',0)
img_original=cv2.resize(img_original,(0,0),fx=0.3,fy=0.3)
#初始化阈值,定义全局变量imgs
thresh=130
imgs=0
#创建滑动条回调函数,参数thresh为滑动条对应位置的数值
def threshold_segmentation(thresh):
#采用5种阈值类型(thresholding type)分割图像
retval1,img_binary=cv2.threshold(img_original,thresh,255,cv2.THRESH_BINARY)
retval2,img_binary_invertion=cv2.threshold(img_original,thresh,255,cv2.THRESH_BINARY_INV)
retval3,img_trunc=cv2.threshold(img_original,thresh,255,cv2.THRESH_TRUNC)
retval4,img_tozero=cv2.threshold(img_original,thresh,255,cv2.THRESH_TOZERO)
retval5,img_tozero_inversion=cv2.threshold(img_original,thresh,255,cv2.THRESH_TOZERO_INV)
#由于cv2.imshow()显示的是多维数组(ndarray),因此我们通过np.hstack(数组水平拼接)
#和np.vstack(竖直拼接)拼接数组,达到同时显示多幅图的目的
img1=np.hstack([img_original,img_binary,img_binary_invertion])
img2=np.hstack([img_trunc,img_tozero,img_tozero_inversion])
global imgs
imgs=np.vstack([img1,img2])
#新建窗口
cv2.namedWindow('Images')
#新建滑动条,初始位置为130
cv2.createTrackbar('threshold value','Images',130,255,threshold_segmentation)
#第一次调用函数
threshold_segmentation(thresh)
#显示图像
while(1):
cv2.imshow('Images',imgs)
if cv2.waitKey(1)==ord('q'):
break
cv2.destroyAllWindows()
三、自适应阈值分割
1.效果图
2.源码
代码如下(示例):
import cv2
import matplotlib.pyplot as plt
#载入原图
img_original=cv2.imread(r'E:\py\python3.7\test2\test14yuzhi\cell.png',0)
#全局阈值分割
retval,img_global=cv2.threshold(img_original,130,255,cv2.THRESH_BINARY)
#自适应阈值分割
img_ada_mean=cv2.adaptiveThreshold(img_original,255,cv2.ADAPTIVE_THRESH_MEAN_C,cv2.THRESH_BINARY,15,3)
img_ada_gaussian=cv2.adaptiveThreshold(img_original,255,cv2.ADAPTIVE_THRESH_GAUSSIAN_C,cv2.THRESH_BINARY,15,3)
imgs=[img_original,img_global,img_ada_mean,img_ada_gaussian]
titles=['Original Image','Global Thresholding(130)','Adaptive Mean','Adaptive Guassian',]
#显示图片
for i in range(4):
plt.subplot(2,2,i+1)
plt.imshow(imgs[i],'gray')
plt.title(titles[i])
plt.xticks([])
plt.yticks([])
plt.show()
3.GaussianBlur()函数去噪
代码如下(示例):
import cv2
import matplotlib.pyplot as plt
#载入原图
img_original=cv2.imread(r'E:\py\python3.7\test2\test14yuzhi\cell.png',0)
#高斯滤波
img_blur=cv2.GaussianBlur(img_original,(13,13),13) #根据情况修改参数
#自适应阈值分割
img_thresh=cv2.adaptiveThreshold(img_original,255,cv2.ADAPTIVE_THRESH_GAUSSIAN_C,cv2.THRESH_BINARY,15,3)
img_thresh_blur=cv2.adaptiveThreshold(img_blur,255,cv2.ADAPTIVE_THRESH_GAUSSIAN_C,cv2.THRESH_BINARY,15,3)
#显示图像
imgs=[img_thresh,img_thresh_blur]
titles=['img_thresh','img_thresh_blur']
for i in range(2):
plt.subplot(1,2,i+1)
plt.imshow(imgs[i],'gray')
plt.title(titles[i])
plt.xticks([])
plt.yticks([])
plt.show()
四、参数解释
1.cv2.threshold(src, thresh, maxval, type)
参数:
- src:输入的图像
- thresh:图像分割所用的阈值(threshold value)
- maxval:当阈值类型(thresholding type)采用cv2.THRESH_BINARY和cv2.THRESH_BINARY_INV时像素点被赋予的新值
- type:介绍6种类型:
- cv2.THRESH_BINARY(当图像某点像素值大于thresh(阈值)时赋予maxval,反之为0。注:最常用)
- cv2.THRESH_BINARY_INV(当图像某点像素值小于thresh时赋予maxval,反之为0)
- cv2.THRESH_TRUNC(当图像某点像素值大于thresh时赋予thresh,反之不变。注:虽然maxval没用了,但是调用函数不能省略)
- cv2.THRESH_TOZERO(当图像某点像素值小于thresh时赋予0,反之不变。注:同上)
- cv2.THRESH_TOZERO_INV(当图像某点像素值大于thresh时赋予0,反之不变。注:同上)
- cv2.THRESH_OTSU(该方法自动寻找最优阈值,并返回给retval,见下文)
返回值:
- retval:设定的thresh值,或者是通过cv2.THRESH_OTSU算出的最优阈值
- dst:阈值分割后的图像
总结
分享:
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