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TensorFlow 2.0 Computer Vision Cookbook

You're reading from   TensorFlow 2.0 Computer Vision Cookbook Implement machine learning solutions to overcome various computer vision challenges

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Product type Paperback
Published in Feb 2021
Publisher Packt
ISBN-13 9781838829131
Length 542 pages
Edition 1st Edition
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Author (1):
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Jesús Martínez Jesús Martínez
Author Profile Icon Jesús Martínez
Jesús Martínez
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Table of Contents (14) Chapters Close

Preface 1. Chapter 1: Getting Started with TensorFlow 2.x for Computer Vision 2. Chapter 2: Performing Image Classification FREE CHAPTER 3. Chapter 3: Harnessing the Power of Pre-Trained Networks with Transfer Learning 4. Chapter 4: Enhancing and Styling Images with DeepDream, Neural Style Transfer, and Image Super-Resolution 5. Chapter 5: Reducing Noise with Autoencoders 6. Chapter 6: Generative Models and Adversarial Attacks 7. Chapter 7: Captioning Images with CNNs and RNNs 8. Chapter 8: Fine-Grained Understanding of Images through Segmentation 9. Chapter 9: Localizing Elements in Images with Object Detection 10. Chapter 10: Applying the Power of Deep Learning to Videos 11. Chapter 11: Streamlining Network Implementation with AutoML 12. Chapter 12: Boosting Performance 13. Other Books You May Enjoy

Implementing a feature extractor using a pre-trained network

One of the easiest ways to seize the power of transfer learning is to use pre-trained models as feature extractors. This way, we can combine both deep learning and machine learning, something that we normally cannot do, because traditional machine learning algorithms don't work with raw images. In this recipe, we'll implement a reusable FeatureExtractor class to produce a dataset of vectors from a set of input images, and then save it in the blazingly fast HDF5 format.

Are you ready? Let's get started!

Getting ready

You'll need to install Pillow and tqdm (which we'll use to display a nice progress bar). Fortunately, this is very easy with pip:

$> pip install Pillow tqdm

We'll be using the Stanford Cars dataset, which you can download here: http://imagenet.stanford.edu/internal/car196/car_ims.tgz. Decompress the data to a location of your preference. In this recipe, we assume...

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