You're reading from Raspberry Pi Computer Vision Programming Design and implement computer vision applications with Raspberry Pi, OpenCV, and Python 3

Product type Paperback

Published in Jun 2020

Publisher Packt

ISBN-13 9781800207219

Length 306 pages

Edition 2nd Edition

Languages

Python

Tools

OpenCV

Concepts

Computer Vision

Author (1):

Ashwin Pajankar

View More author details

Table of Contents (15) Chapters

Preface

1. Chapter 1: Introduction to Computer Vision and the Raspberry Pi

2. Chapter 2: Preparing the Raspberry Pi for Computer Vision FREE CHAPTER

3. Chapter 3: Introduction to Python Programming

4. Chapter 4: Getting Started with Computer Vision

5. Chapter 5: Basics of Image Processing

6. Chapter 6: Colorspaces, Transformations, and Thresholding

7. Chapter 7: Let's Make Some Noise

8. Chapter 8: High-Pass Filters and Feature Detection

9. Chapter 9: Image Restoration, Segmentation, and Depth Maps

10. Chapter 10: Histograms, Contours, and Morphological Transformations

11. Chapter 11: Real-Life Applications of Computer Vision

12. Chapter 12: Working with Mahotas and Jupyter

13. Chapter 13: Appendix

14. Other Books You May Enjoy

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Implementing background subtraction

Static cameras are used in many applications, such as security and monitoring. We can separate the background and moving objects by applying a process known as background subtraction. It usually returns a binary image with the background (the static part of the scene) in black pixels and the moving (changing or dynamic) parts in white pixels. OpenCV can implement this through two algorithms. The first is createBackgroundSubtractorKNN(). This creates a K-Nearest Neighbour (KNN) background subtractor object. Then, we can call the apply() function with the object to obtain the foreground mask. We can directly display the foreground mask in real time.

The following is a demonstration of how to use it:

import cv2
import numpy as np
cap = cv2.VideoCapture(0)
fgbg = cv2.createBackgroundSubtractorKNN()
while(True):
    ret, frame = cap.read()
    fgmask = fgbg.apply(frame)
    cv2.imshow(...