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OpenCV 4 for Secret Agents

You're reading from   OpenCV 4 for Secret Agents Use OpenCV 4 in secret projects to classify cats, reveal the unseen, and react to rogue drivers

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Product type Paperback
Published in Apr 2019
Publisher Packt
ISBN-13 9781789345360
Length 336 pages
Edition 2nd Edition
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Authors (2):
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Joseph Howse Joseph Howse
Author Profile Icon Joseph Howse
Joseph Howse
Arun Ponnusamy Arun Ponnusamy
Author Profile Icon Arun Ponnusamy
Arun Ponnusamy
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Table of Contents (16) Chapters Close

Preface 1. Section 1: The Briefing FREE CHAPTER
2. Preparing for the Mission 3. Searching for Luxury Accommodations Worldwide 4. Section 2: The Chase
5. Training a Smart Alarm to Recognize the Villain and His Cat 6. Controlling a Phone App with Your Suave Gestures 7. Equipping Your Car with a Rearview Camera and Hazard Detection 8. Creating a Physics Simulation Based on a Pen and Paper Sketch 9. Section 3: The Big Reveal
10. Seeing a Heartbeat with a Motion-Amplifying Camera 11. Stopping Time and Seeing like a Bee 12. Making WxUtils.py Compatible with Raspberry Pi
13. Learning More about Feature Detection in OpenCV
14. Running with Snakes (or, First Steps with Python)
15. Other Books You May Enjoy

Understanding optical flow

Optical flow is the pattern of apparent motion between two consecutive frames of video. We select feature points in the first frame and try to determine where those features have gone in the second frame. This search is subject to a few caveats:

  • We make no attempt to distinguish between camera motion and subject motion.
  • We assume that a feature's color or brightness remains similar between frames.
  • We assume that neighboring pixels have similar motions.

OpenCV's calcOpticalFlowPyrLK function implements the Lucas-Kanade method of computing optical flow. Lucas-Kanade relies on a 3 x 3 neighborhood (that is, 9 pixels) around each feature. Taking each feature's neighborhood from the first frame, we try to find the best matching neighborhood in the second frame, based on least squares error. OpenCV's implementation of Lucas-Kanade uses...

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