Preface

• Get started with machine learning
• Who this book is for
• What this book covers
• What you need for this book
• To get the most out of this book
• Get in touch

1. Giving Computers the Ability to Learn from Data

• Building intelligent machines to transform data into knowledge
• The three different types of machine learning
• Introduction to the basic terminology and notations
• A roadmap for building machine learning systems
• Using Python for machine learning
• Summary

2. Training Simple Machine Learning Algorithms for Classification FREE CHAPTER

• Artificial neurons – a brief glimpse into the early history of machine learning
• Implementing a perceptron learning algorithm in Python
• Adaptive linear neurons and the convergence of learning
• Summary

3. A Tour of Machine Learning Classifiers Using scikit-learn

• Choosing a classification algorithm
• First steps with scikit-learn – training a perceptron
• Modeling class probabilities via logistic regression
• Maximum margin classification with support vector machines
• Solving nonlinear problems using a kernel SVM
• Decision tree learning
• K-nearest neighbors – a lazy learning algorithm
• Summary

4. Building Good Training Datasets – Data Preprocessing

• Dealing with missing data
• Handling categorical data
• Partitioning a dataset into separate training and test datasets
• Bringing features onto the same scale
• Selecting meaningful features
• Assessing feature importance with random forests
• Summary

5. Compressing Data via Dimensionality Reduction

• Unsupervised dimensionality reduction via principal component analysis
• Supervised data compression via linear discriminant analysis
• Using kernel principal component analysis for nonlinear mappings
• Summary

6. Learning Best Practices for Model Evaluation and Hyperparameter Tuning

• Streamlining workflows with pipelines
• Using k-fold cross-validation to assess model performance
• Debugging algorithms with learning and validation curves
• Fine-tuning machine learning models via grid search
• Looking at different performance evaluation metrics
• Summary

7. Combining Different Models for Ensemble Learning

• Learning with ensembles
• Combining classifiers via majority vote
• Bagging – building an ensemble of classifiers from bootstrap samples
• Leveraging weak learners via adaptive boosting
• Summary

8. Applying Machine Learning to Sentiment Analysis

• Preparing the IMDb movie review data for text processing
• Introducing the bag-of-words model
• Training a logistic regression model for document classification
• Working with bigger data – online algorithms and out-of-core learning
• Topic modeling with Latent Dirichlet Allocation
• Summary

9. Embedding a Machine Learning Model into a Web Application

• Serializing fitted scikit-learn estimators
• Setting up an SQLite database for data storage
• Developing a web application with Flask
• Turning the movie review classifier into a web application
• Deploying the web application to a public server
• Summary

10. Predicting Continuous Target Variables with Regression Analysis

• Introducing linear regression
• Exploring the Housing dataset
• Implementing an ordinary least squares linear regression model
• Fitting a robust regression model using RANSAC
• Evaluating the performance of linear regression models
• Using regularized methods for regression
• Turning a linear regression model into a curve – polynomial regression
• Dealing with nonlinear relationships using random forests
• Summary

11. Working with Unlabeled Data – Clustering Analysis

• Grouping objects by similarity using k-means
• Organizing clusters as a hierarchical tree
• Locating regions of high density via DBSCAN
• Summary

12. Implementing a Multilayer Artificial Neural Network from Scratch

• Modeling complex functions with artificial neural networks
• Classifying handwritten digits
• Training an artificial neural network
• About the convergence in neural networks
• A few last words about the neural network implementation
• Summary

13. Parallelizing Neural Network Training with TensorFlow

• TensorFlow and training performance
• First steps with TensorFlow
• Building input pipelines using tf.data – the TensorFlow Dataset API
• Building an NN model in TensorFlow
• Choosing activation functions for multilayer neural networks
• Summary

14. Going Deeper – The Mechanics of TensorFlow

• The key features of TensorFlow
• TensorFlow's computation graphs: migrating to TensorFlow v2
• TensorFlow Variable objects for storing and updating model parameters
• Computing gradients via automatic differentiation and GradientTape
• Simplifying implementations of common architectures via the Keras API
• TensorFlow Estimators
• Summary

15. Classifying Images with Deep Convolutional Neural Networks

• The building blocks of CNNs
• Putting everything together – implementing a CNN
• Implementing a deep CNN using TensorFlow
• Gender classification from face images using a CNN
• Summary

16. Modeling Sequential Data Using Recurrent Neural Networks

• Introducing sequential data
• RNNs for modeling sequences
• Implementing RNNs for sequence modeling in TensorFlow
• Understanding language with the Transformer model
• Summary

17. Generative Adversarial Networks for Synthesizing New Data

• Introducing generative adversarial networks
• Implementing a GAN from scratch
• Improving the quality of synthesized images using a convolutional and Wasserstein GAN
• Other GAN applications
• Summary

18. Reinforcement Learning for Decision Making in Complex Environments

• Introduction – learning from experience
• The theoretical foundations of RL
• Reinforcement learning algorithms
• Implementing our first RL algorithm
• Chapter and book summary

19. Other Books You May Enjoy

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20. Index