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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

Handling seasonality – seasonal decomposition

This recipe describes yet another approach to modeling seasonality, this time using a time series decomposition approach.

Getting ready

We learned about time series decomposition methods in Chapter 1. Decomposition methods aim at extracting the individual parts that make up a time series.

We can use this approach to deal with seasonality. The idea is to separate the seasonal component from the rest (trend plus residuals). We can use a deep neural network to model the seasonally adjusted series. Then, we use a simple model to forecast the seasonal component.

Again, we’ll start with the daily solar radiation time series. This time, we won’t split training and testing to show how the forecasts are obtained in practice.

How to do it…

We start by decomposing the time series using STL. We learned about this method in Chapter 1:

from statsmodels.tsa.api import STL
series_decomp = STL(series, period...
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