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Deep Learning for Time Series Cookbook

You're reading from   Deep Learning for Time Series Cookbook Use PyTorch and Python recipes for forecasting, classification, and anomaly detection

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Product type Paperback
Published in Mar 2024
Publisher Packt
ISBN-13 9781805129233
Length 274 pages
Edition 1st Edition
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Authors (2):
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Luís Roque Luís Roque
Author Profile Icon Luís Roque
Luís Roque
Vitor Cerqueira Vitor Cerqueira
Author Profile Icon Vitor Cerqueira
Vitor Cerqueira
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Toc

Table of Contents (12) Chapters Close

Preface 1. Chapter 1: Getting Started with Time Series FREE CHAPTER 2. Chapter 2: Getting Started with PyTorch 3. Chapter 3: Univariate Time Series Forecasting 4. Chapter 4: Forecasting with PyTorch Lightning 5. Chapter 5: Global Forecasting Models 6. Chapter 6: Advanced Deep Learning Architectures for Time Series Forecasting 7. Chapter 7: Probabilistic Time Series Forecasting 8. Chapter 8: Deep Learning for Time Series Classification 9. Chapter 9: Deep Learning for Time Series Anomaly Detection 10. Index 11. Other Books You May Enjoy

What this book covers

Chapter 1, Getting Started with Time Series, introduces the main concepts behind time series. The chapter starts by defining a time series and describing how it can represent several real-world systems. Then, we explore the main features of time series data, including trend or seasonality. You’ll also learn about several methods and techniques for time series analysis.

Chapter 2, Getting Started with PyTorch, provides an overview of how to use PyTorch to develop deep learning models in Python. We start by guiding you through the installation process of PyTorch, including how to set up the appropriate environment. This is followed by an introduction to defining a neural network structure in PyTorch, including the definition of layers and activation functions. Afterward, we walk through the process of training a neural network. By the end of the chapter, you will understand the fundamentals of using PyTorch for deep learning and be ready to tackle forecasting tasks with these new skills.

Chapter 3, Univariate Time Series Forecasting, focuses on using PyTorch to develop deep learning forecasting models for univariate time series. We begin by guiding you through preparing a time series for supervised learning. After that, we introduce different types of neural networks, including feed-forward, recurrent, and convolutional neural networks. We explain how they can be trained and how we can use them to tackle time series forecasting problems. We also cover common time series issues, such as trend and seasonality, and how to incorporate them into neural network models.

Chapter 4, Forecasting with PyTorch Lightning, explores the PyTorch Lightning ecosystem and how to use it to build neural networks using time series. You’ll learn about data modules and data loaders, and how these can help you accelerate the process of building forecasting models. We also explore TensorBoard and callbacks, which are useful to drive the training process.

Chapter 5, Global Forecasting Models, describes how to handle forecasting problems involving collections of time series. You’ll also learn about the intricacies of particular problems in forecasting, such as multi-step ahead predictions and predictions for multiple variables. Finally, we’ll also explore how to optimize the parameters of a neural network using Ray Tune.

Chapter 6, Advanced Deep Learning Architectures for Time Series Forecasting, provides a comprehensive guide to using state-of-the-art architectures for time series forecasting. We cover how to train several models, such as DeepAR, N-BEATS, and TFT. Additionally, we explain each model’s architecture and inner workings and how to apply them to specific forecasting problems.

Chapter 7, Probabilistic Time Series Forecasting, describes how to use deep learning for probabilistic time series forecasting. We introduce the concept of probabilistic forecasting and the key differences compared to traditional point forecasting. The chapter gives several examples of probabilistic forecasting problems that can be tackled using specific deep learning architectures.

Chapter 8, Deep Learning for Time Series Classification, focuses on using deep learning to tackle time series classification problems. The chapter introduces the concept of time series classification, which involves assigning a class label to a time series. We show how to tackle time series classification problems with different deep learning architectures, including residual and convolutional neural networks.

Chapter 9, Deep Learning for Time Series Anomaly Detection, gives an overview of how to use deep learning to detect abnormal patterns in a time series. For this use case, we introduce generative adversarial networks and auto-encoders, which are popular approaches to detecting anomalies in time series.

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