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  • Book Overview & Buying Deep Learning with TensorFlow
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Deep Learning with TensorFlow

Deep Learning with TensorFlow

By : Giancarlo Zaccone, Fabrizio Milo, Md. Rezaul Karim
2 (10)
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Deep Learning with TensorFlow

Deep Learning with TensorFlow

2 (10)
By: Giancarlo Zaccone, Fabrizio Milo, Md. Rezaul Karim

Overview of this book

Deep learning is the step that comes after machine learning, and has more advanced implementations. Machine learning is not just for academics anymore, but is becoming a mainstream practice through wide adoption, and deep learning has taken the front seat. As a data scientist, if you want to explore data abstraction layers, this book will be your guide. This book shows how this can be exploited in the real world with complex raw data using TensorFlow 1.x. Throughout the book, you’ll learn how to implement deep learning algorithms for machine learning systems and integrate them into your product offerings, including search, image recognition, and language processing. Additionally, you’ll learn how to analyze and improve the performance of deep learning models. This can be done by comparing algorithms against benchmarks, along with machine intelligence, to learn from the information and determine ideal behaviors within a specific context. After finishing the book, you will be familiar with machine learning techniques, in particular the use of TensorFlow for deep learning, and will be ready to apply your knowledge to research or commercial projects.
Table of Contents (11 chapters)
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Introducing autoencoders

An autoencoder is a network with three or more layers, where the input layer and the output have the same number of neurons, and those intermediate (hidden) layers have a lower number of neurons. The network is trained to simply reproduce in output, for each input data, the same pattern of activity in the input.

The remarkable aspect of the problem is that, due to the lower number of neurons in the hidden layer, if the network can learn from examples, and can generalize to an acceptable extent, it performs data compression: the status of the hidden neurons provide, for each example, a compressed version of the input and output common states.

In the first examples of such networks, in the 1980s, a compression of simple images was obtained in this way. This was not far for services to that obtainable with standard methods and more complicated.

Interest in autoencoders was recently revived...

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Deep Learning with TensorFlow
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