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Mastering Spark for Data Science

You're reading from   Mastering Spark for Data Science Lightning fast and scalable data science solutions

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Product type Paperback
Published in Mar 2017
Publisher Packt
ISBN-13 9781785882142
Length 560 pages
Edition 1st Edition
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Authors (5):
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David George David George
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David George
Matthew Hallett Matthew Hallett
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Matthew Hallett
Antoine Amend Antoine Amend
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Antoine Amend
Andrew Morgan Andrew Morgan
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Andrew Morgan
Albert Bifet Albert Bifet
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Albert Bifet
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Table of Contents (15) Chapters Close

Preface 1. The Big Data Science Ecosystem 2. Data Acquisition FREE CHAPTER 3. Input Formats and Schema 4. Exploratory Data Analysis 5. Spark for Geographic Analysis 6. Scraping Link-Based External Data 7. Building Communities 8. Building a Recommendation System 9. News Dictionary and Real-Time Tagging System 10. Story De-duplication and Mutation 11. Anomaly Detection on Sentiment Analysis 12. TrendCalculus 13. Secure Data 14. Scalable Algorithms

The TrendCalculus algorithm

In this section we will explain the detail of the TrendCalculus implementation, using the Brent oil price data set seen in Chapter 5, Spark for Geographic Analysis, as an example use case.

Trend windows

In order to measure any type of change, we must first quantify it in some way. For trends, we are going to define this in the following manner:

  • Overall positive change (usually expressed as a value increase)

Higher highs and higher lows => +1

  • Overall negative change (usually expressed as a value decrease)

Lower highs and lower lows => -1

We must therefore translate our data into a time series of trend direction, being either +1 or -1. By splitting our data into a series of windows, size n, we can calculate the dated highs and lows for each of them:

Trend windows

Since this type of windowing is a common practice in data science, it is reasonable to think there must be an implementation in Spark; if you have read Chapter 5, Spark for Geographic Analysis you will have seen them...

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