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You're reading from Hands-On Computer Vision with TensorFlow 2 Leverage deep learning to create powerful image processing apps with TensorFlow 2.0 and Keras

Product type Paperback

Published in May 2019

Publisher Packt

ISBN-13 9781788830645

Length 372 pages

Edition 1st Edition

Languages

Python

Tools

Keras

Concepts

Computer Vision

Authors (2):

Eliot Andres

Benjamin Planche

View More author details

Table of Contents (16) Chapters

Preface

1. Section 1: TensorFlow 2 and Deep Learning Applied to Computer Vision FREE CHAPTER

2. Computer Vision and Neural Networks

3. TensorFlow Basics and Training a Model

4. Modern Neural Networks

5. Section 2: State-of-the-Art Solutions for Classic Recognition Problems

6. Influential Classification Tools

7. Object Detection Models

8. Enhancing and Segmenting Images

9. Section 3: Advanced Concepts and New Frontiers of Computer Vision

10. Training on Complex and Scarce Datasets

11. Video and Recurrent Neural Networks

12. Optimizing Models and Deploying on Mobile Devices

13. Migrating from TensorFlow 1 to TensorFlow 2

14. Assessments

15. Other Books You May Enjoy

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How YOLO refines anchor boxes

In practice, YOLOv2 computes each final bounding box's coordinates using the following formulas:

The terms of the preceding equation can be explained as follows:

t_x , t_y , t_w , and t_h are the outputs from the last layer.
b_x , b_y , b_w , and b_h are the position and size of the predicted bounding box, respectively.
p_w and p_h represent the original size of the anchor box.
c_x and c_y are the coordinates of the current grid cell (they will be (0,0) for the top-left box, (w - 1,0) for the top-right box, and (0, h - 1) for the bottom-left box).
exp is the exponential function.
sigmoid is the sigmoid function, described in Chapter 1, Computer Vision and Neural Networks.

While this formula may seem complex, this diagram may help to clarify matters:

Figure 5.7: How YOLO refines and positions anchor boxes

In the preceding diagram, we see that on the left, the solid line is the anchor box, and the dotted line is the refined bounding...

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Authors (2)

Benjamin Planche

Dr. Benjamin Planche is a passionate research scientist in computer vision and machine learning. His main research efforts focus on data scarcity problems and industrial vision systems, leading to numerous patents and publications at international conferences. He worked in various research labs around the world (including in France, Japan, Germany, and the USA). Benjamin obtained his Ph.D. summa cum laude from the Faculty of Computer Science and Mathematics at the University of Passau, under the supervision of Prof. Dr. Harald Kosch. He also has a double master's degree from INSA-Lyon (France) and the University of Passau (Germany), with first-class honors and a multinational excellence award. He also likes sharing his knowledge and experience on various platforms or applying them to the creation of aesthetic demos.

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Eliot Andres

Eliot Andres is a freelance deep learning and computer vision engineer. He has more than 3 years' experience in the field, applying his skills to a variety of industries, such as banking, health, social media, and video streaming. Eliot has a double master's degree from cole des Ponts and Tlcom, Paris. His focus is industrialization: delivering value by applying new technologies to business problems. Eliot keeps his knowledge up to date by publishing articles on his blog and by building prototypes using the latest technologies.

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