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Forecasting Time Series Data with Facebook Prophet

You're reading from   Forecasting Time Series Data with Facebook Prophet Build, improve, and optimize time series forecasting models using the advanced forecasting tool

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Product type Paperback
Published in Mar 2021
Publisher Packt
ISBN-13 9781800568532
Length 270 pages
Edition 1st Edition
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Author (1):
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Greg Rafferty Greg Rafferty
Author Profile Icon Greg Rafferty
Greg Rafferty
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Table of Contents (18) Chapters Close

Preface 1. Section 1: Getting Started
2. Chapter 1: The History and Development of Time Series Forecasting FREE CHAPTER 3. Chapter 2: Getting Started with Facebook Prophet 4. Section 2: Seasonality, Tuning, and Advanced Features
5. Chapter 3: Non-Daily Data 6. Chapter 4: Seasonality 7. Chapter 5: Holidays 8. Chapter 6: Growth Modes 9. Chapter 7: Trend Changepoints 10. Chapter 8: Additional Regressors 11. Chapter 9: Outliers and Special Events 12. Chapter 10: Uncertainty Intervals 13. Section 3: Diagnostics and Evaluation
14. Chapter 11: Cross-Validation 15. Chapter 12: Performance Metrics 16. Chapter 13: Productionalizing Prophet 17. Other Books You May Enjoy

ARIMA

In 1970, the mathematicians George Box and Gwilym Jenkins published Time Series: Forecasting and Control, which described what is now known as the Box-Jenkins model. This methodology took the idea of the moving average further with the development of ARIMA. As a term, ARIMA is often used interchangeably with Box-Jenkins, although technically, Box-Jenkins refers to a method of parameter optimization for an ARIMA model.

ARIMA is an acronym of three concepts: Autoregressive (AR), Integrated (I), and Moving Average (MA). We already understand the moving average part. Autoregressive means that the model uses the dependent relationship between a data point and some number of lagged data points. That is, the model predicts upcoming values based upon previous values. This is similar to predicting that it will be warm tomorrow because it's been warm all week so far.

The integrated part means that instead of using any raw data point, the difference between that data point and some previous data point is used. Essentially, this means that we convert a series of values into a series of changes in values. Intuitively, this suggests that tomorrow will be more or less the same temperature as today because the temperature all week hasn't varied too much.

Each of the AR, I, and MA components of an ARIMA model are explicitly specified as a parameter in the model. Traditionally, p is used as the number of lag observations to use, also known as the lag order. The number of times that a raw observation is differenced, or the degree of differencing, is known as d, and q represents the size of the moving average window. Thus arises the standard notation for an ARIMA model of ARIMA(p, d, q), where p, d, and q are all non-negative integers.

A problem with ARIMA models is that they do not support seasonality, or data with repeating cycles, such as temperature rising in the day and falling at night or rising in summer and falling in winter. SARIMA, or Seasonal ARIMA, was developed to overcome this drawback. Similar to the ARIMA notation, the notation for a SARIMA model is SARIMA(p, d, q)(P, D, Q)m, with P being the seasonal autoregressive order, D the seasonal difference order, Q the seasonal moving average order, and m the number of time steps for a single seasonal period.

You may also come across other variations on ARIMA models, including VARIMA (Vector ARIMA, for cases with multiple time series as vectors); FARIMA (Fractional ARIMA) or ARFIMA (Fractionally Integrated ARMA), both of which include a fractional differencing degree allowing a long memory in the sense that observations far apart in time can have non-negligible dependencies; and SARIMAX, a seasonal ARIMA model where the X stands for exogenous or additional variables added to the model, such as adding a rain forecast to a temperature model.

ARIMA does typically exhibit very good results, but the downside is complexity. Tuning and optimizing ARIMA models is often computationally expensive and successful results can depend upon the skill and experience of the forecaster. It is not a scalable process, but better suited to ad hoc analyses by skilled practitioners.

You have been reading a chapter from
Forecasting Time Series Data with Facebook Prophet
Published in: Mar 2021
Publisher: Packt
ISBN-13: 9781800568532
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