How to use Python to extract texture from images
Introduction: Texture extraction is an important technology in image processing, which can extract texture features from images for Image analysis, classification, matching and other tasks. As a popular programming language, Python has a wealth of image processing libraries and tools, such as PIL, opencv-python, etc. This article will introduce how to use Python to extract texture from images, and attach code examples.
1. Install and import necessary libraries
Before starting, we need to install and import some necessary libraries, including PIL, opencv-python and numpy. They can be installed using pip:
$ pip install Pillow $ pip install opencv-python $ pip install numpy
The code to import the required libraries is as follows:
import cv2 import numpy as np from PIL import Image
2. Reading and displaying images
First, we need to read an image to be processed , and displayed. Here, we selected a natural scenery picture and saved it as "texture.jpg".
# 读取图片
image = Image.open("texture.jpg")
# 显示图片
image.show()3. Convert the image to a grayscale image
Texture extraction is generally performed on a grayscale image, so we need to convert the read color image into a grayscale image.
# 转换为灰度图像
gray_image = image.convert("L")
# 显示灰度图像
gray_image.show()4. Calculate the gray level co-occurrence matrix (GLCM)
The gray level co-occurrence matrix is a common method for texture analysis, which can describe the gray level changes and spatial relationships between pixels.
In Python, we can use the opencv-python library (cv2) to calculate the gray level co-occurrence matrix. The specific steps are as follows:
# 将灰度图像转换为numpy数组 gray_array = np.array(gray_image)
cv2.calcHist() function in the cv2 library to calculate the gray level co-occurrence matrix. This function requires input of a grayscale image and some parameters, such as the number of grayscale levels, pixel intervals, image height and width, etc. # 计算灰度共生矩阵 glcm = cv2.calcHist([gray_array], [0], None, [256], [0, 256])
# 规范化灰度共生矩阵 glcm /= glcm.sum()
5. Texture feature extraction
After obtaining the gray level co-occurrence matrix, we can use it to extract some common texture features, such as energy, contrast, correlation Correlation and homogeneity, etc.
The following are several common texture feature calculation methods:
# 计算能量(energy)
energy = np.sum(glcm ** 2)
print("能量:", energy)# 计算对比度(contrast)
contrast = np.sum(glcm * np.abs(np.arange(256) - np.arange(256)[:,None]))
print("对比度:", contrast)# 计算相关性(correlation)
correlation = np.sum(glcm * (np.arange(256) - np.mean(glcm)) * (np.arange(256)[:,None] - np.mean(glcm))) / (np.std(glcm) ** 2)
print("相关性:", correlation)# 计算均匀性(homogeneity)
homogeneity = np.sum(glcm / (1 + np.abs(np.arange(256) - np.arange(256)[:,None])))
print("均匀性:", homogeneity) 6. Summary
This article introduces how to use Python to extract texture from images and how to calculate common texture features. By using PIL and opencv-python, two commonly used image processing libraries, we can easily read and display images, convert images into grayscale images, and calculate the grayscale co-occurrence matrix of the image. After obtaining the gray-level co-occurrence matrix, we also introduced how to calculate common texture features, including energy, contrast, correlation, and uniformity.
Texture analysis is an important research direction in computer vision and plays an important role in image analysis, classification, retrieval and other tasks. I hope this article will be helpful to readers who learn and apply texture extraction technology.
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