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利用OpenCV和Python实现查找图片差异

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使用OpenCV和Python查找图片差异

flyfish

方法1 均方误差的算法(Mean Squared Error , MSE)

下面的一些表达与《TensorFlow - 协方差矩阵》式子表达式一样的

拟合 误差平方和( sum of squared errors)

residual sum of squares (RSS), also known as the sum of squared residuals (SSR) or the sum of squared errors of prediction (SSE),
also known as 就我们所说的
RSS, SSR ,SSE表达的是一个意思

def mse(imageA, imageB):
 # the 'Mean Squared Error' between the two images is the
 # sum of the squared difference between the two images;
 # NOTE: the two images must have the same dimension
 err = np.sum((imageA.astype("float") - imageB.astype("float")) ** 2)
 err /= float(imageA.shape[0] * imageA.shape[1])

 # return the MSE, the lower the error, the more "similar"
 # the two images are
 return err

方法2 SSIM

​structural similarity index measurement (SSIM) system

一种衡量两幅图像结构相似度的新指标,其值越大越好,最大为1。

新建一个Python文件,命名为 image_diff.py

原文

Image Difference with OpenCV and Python

原理

根据参数读取两张图片并转换为灰度:

使用SSIM计算两个图像之间的差异,这种方法已经在scikit-image 库中实现

在两个图像之间的不同部分绘制矩形边界框。

代码如下 已编译通过

from skimage.measure import compare_ssim
#~ import skimage as ssim
import argparse
import imutils
import cv2

# construct the argument parse and parse the arguments
ap = argparse.ArgumentParser()
ap.add_argument("-f", "--first", required=True,
 help="first input image")
ap.add_argument("-s", "--second", required=True,
 help="second")
args = vars(ap.parse_args())
# load the two input images
imageA = cv2.imread(args["first"])
imageB = cv2.imread(args["second"])
'''
imageA = cv2.imread("E:\\1.png")
imageB = cv2.imread("E:\\2.png")
'''
# convert the images to grayscale
grayA = cv2.cvtColor(imageA, cv2.COLOR_BGR2GRAY)
grayB = cv2.cvtColor(imageB, cv2.COLOR_BGR2GRAY)

# compute the Structural Similarity Index (SSIM) between the two
# images, ensuring that the difference image is returned
#​structural similarity index measurement (SSIM) system一种衡量两幅图像结构相似度的新指标,其值越大越好,最大为1。

(score, diff) = compare_ssim(grayA, grayB, full=True)
diff = (diff * 255).astype("uint8")
print("SSIM: {}".format(score))

# threshold the difference image, followed by finding contours to
# obtain the regions of the two input images that differ
thresh = cv2.threshold(diff, 0, 255,
 cv2.THRESH_BINARY_INV | cv2.THRESH_OTSU)[1]
cnts = cv2.findContours(thresh.copy(), cv2.RETR_EXTERNAL,
 cv2.CHAIN_APPROX_SIMPLE)
cnts = cnts[0] if imutils.is_cv2() else cnts[1]

# loop over the contours
for c in cnts:
 # compute the bounding box of the contour and then draw the
 # bounding box on both input images to represent where the two
 # images differ
 (x, y, w, h) = cv2.boundingRect(c)
 cv2.rectangle(imageA, (x, y), (x + w, y + h), (0, 0, 255), 2)
 cv2.rectangle(imageB, (x, y), (x + w, y + h), (0, 0, 255), 2)

# show the output images
cv2.imshow("Original", imageA)
cv2.imshow("Modified", imageB)
cv2.imshow("Diff", diff)
cv2.imshow("Thresh", thresh)
cv2.waitKey(0)

使用方法

python image_diff.py –first original.png –second images/modified.png 

如果不想使用参数将参数代码部分直接变成

imageA = cv2.imread(“E:\1.png”) 
imageB = cv2.imread(“E:\2.png”)

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