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The Deep Learning with Keras Workshop

You're reading from   The Deep Learning with Keras Workshop Learn how to define and train neural network models with just a few lines of code

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Product type Paperback
Published in Jul 2020
Publisher Packt
ISBN-13 9781800562967
Length 496 pages
Edition 1st Edition
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Authors (3):
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Matthew Moocarme Matthew Moocarme
Author Profile Icon Matthew Moocarme
Matthew Moocarme
Mahla Abdolahnejad Mahla Abdolahnejad
Author Profile Icon Mahla Abdolahnejad
Mahla Abdolahnejad
Ritesh Bhagwat Ritesh Bhagwat
Author Profile Icon Ritesh Bhagwat
Ritesh Bhagwat
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Table of Contents (11) Chapters Close

Preface
1. Introduction to Machine Learning with Keras 2. Machine Learning versus Deep Learning FREE CHAPTER 3. Deep Learning with Keras 4. Evaluating Your Model with Cross-Validation Using Keras Wrappers 5. Improving Model Accuracy 6. Model Evaluation 7. Computer Vision with Convolutional Neural Networks 8. Transfer Learning and Pre-Trained Models 9. Sequential Modeling with Recurrent Neural Networks Appendix

Introduction

Machine learning is the science of utilizing machines to emulate human tasks and to have the machine improve its performance of that task over time. By feeding machines data in the form of observations of real-world events, they can develop patterns and relationships that will optimize an objective function, such as the accuracy of a binary classification task or the error in a regression task.

In general, the usefulness of machine learning is in the machine's ability to learn highly complex and non-linear relationships in large datasets and to replicate the results of that learning many times. One branch of machine learning algorithms has shown a lot of promise in learning highly complex and non-linear relationships associated with large, often unstructured datasets such as images, audio, and text data—Artificial Neural Networks (ANNs). ANNs, however, can be complicated to program, train, and evaluate, and this can be intimidating for beginners in the field. Keras is a Python library that presents a facile introduction to building, training, and evaluating ANNs that is incredibly useful to those studying machine learning.

Take, for example, the classification of a dataset of pictures of either dogs or cats into classes of their respective type. For a human, this is simple, and the accuracy would likely be very high. However, it may take around a second to categorize each picture and scaling the task can only be achieved by increasing the number of humans, which may not be feasible. While it may be difficult, though certainly not impossible, for machines to reach the same level of accuracy as humans for this task, machines can classify many images per second, and scaling can be easily done by increasing the processing power of a single machine or making the algorithm more efficient:

Figure 1.1: The classification of images as either dog or cat is a simple task for humans, but quite difficult for machines

Figure 1.1: The classification of images as either dog or cat is a simple task for humans, but quite difficult for machines

While the trivial task of classifying dogs and cats may be simple for us humans, the same principles that are used to create a machine learning model that classifies dogs and cats can be applied to other classification tasks that humans may struggle with. An example of this is identifying tumors in Magnetic Resonance Images (MRIs). For humans, this task requires a medical professional with years of experience, whereas a machine may only need a dataset of labeled images. The following image shows MRI images of the brain, some of which include tumors:

Figure 1.2: A non-trivial classification task for humans – MRIs of brains, some of which include the presence of tumors

Figure 1.2: A non-trivial classification task for humans – MRIs of brains, some of which include the presence of tumors

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