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You're reading from Mastering Computer Vision with TensorFlow 2.x Build advanced computer vision applications using machine learning and deep learning techniques

Product type Paperback

Published in May 2020

Publisher Packt

ISBN-13 9781838827069

Length 430 pages

Edition 1st Edition

Languages

Python

Tools

OpenCV

Concepts

Computer Vision

Author (1):

Krishnendu Kar

View More author details

Table of Contents (18) Chapters

Preface

1. Section 1: Introduction to Computer Vision and Neural Networks

2. Computer Vision and TensorFlow Fundamentals FREE CHAPTER

3. Content Recognition Using Local Binary Patterns

4. Facial Detection Using OpenCV and CNN

5. Deep Learning on Images

6. Section 2: Advanced Concepts of Computer Vision with TensorFlow

7. Neural Network Architecture and Models

8. Visual Search Using Transfer Learning

9. Object Detection Using YOLO

10. Semantic Segmentation and Neural Style Transfer

11. Section 3: Advanced Implementation of Computer Vision with TensorFlow

12. Action Recognition Using Multitask Deep Learning

13. Object Detection Using R-CNN, SSD, and R-FCN

14. Section 4: TensorFlow Implementation at the Edge and on the Cloud

15. Deep Learning on Edge Devices with CPU/GPU Optimization

16. Cloud Computing Platform for Computer Vision

17. Other Books You May Enjoy

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Human pose estimation – OpenPose

Human pose estimation is another area of the remarkable success of the deep neural networks and has had rapid growth in recent years. In the last few chapters, we learned that deep neural networks use a combination of linear (convolution) and nonlinear (ReLU) operations to predict the output for a given set of input images. In the case of pose estimation, the deep neural network predicts the joint locations, when given a set of input images. The labeled dataset in an image consists of a bounding box determining N persons in the image and K joints per person. As the pose changes, the orientation of the joints change, so different positions are characterized by looking into the relative position of the joints. In the following sections, we'll describe the different pose estimation methods we can use.

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Authors (1)

Kar

Krishnendu (Krish) is passionate about research on computer vision and solving AI problems to make our life simpler. His core expertise is deep learning - computer vision, IoT, and agile software development. Krish is also a passionate app developer and has a dash cam-based object and lane detection and turn by turn navigation and fitness app in the iOS app store - Nity Map AI Camera & Run timer.

See other products by Kar