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Mastering Computer Vision with TensorFlow 2.x

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

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Product type Paperback
Published in May 2020
Publisher Packt
ISBN-13 9781838827069
Length 430 pages
Edition 1st Edition
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Author (1):
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Krishnendu Kar Krishnendu Kar
Author Profile Icon Krishnendu Kar
Krishnendu Kar
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Table of Contents (18) Chapters Close

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

Artificial image generation using DCGANs

In Chapter 5, Neural Network Architecture and Models, we learned about DCGANs. They consist of a generator model and a discriminator model. The generator model takes in a random vector representing the feature of an image and runs through a CNN to produce an artificial image, G(z). Due to this, the generator model returns the absolute probability G(z), of generating a new image and its class. The discriminator (D) network is a binary classifier. It takes in the real image from a sample probability, distribution of images (p-data) and the artificial image from the generator in order to generate a probability, P(z), that the final image has been sampled from a real image distribution. Thus, the discriminator model returns the conditional probability that the class of the final image is from a given distribution.

The discriminator feeds the...

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