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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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Toc

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

Twitter and the Godwin point

With our text content properly cleaned up, we can feed a Word2Vec algorithm and attempt to understand the words in their actual context.

Learning context

As it says on the tin, the Word2Vec algorithm transforms a word into a vector. The idea is that similar words will be embedded into similar vector spaces and, as such, will look close to one another contextually.

Well integrated into Spark, a Word2Vec model can be trained as follows:

import org.apache.spark.mllib.feature.Word2Vec

val corpusRDD = tweetRDD
   .map(_.body.split("\\s").toSeq)
   .filter(_.distinct.length >= 4)

val model = new Word2Vec().fit(corpusRDD)

Here we extract each tweet as a sequence of words, only keeping records with at least 4 distinct words. Note that the list of all words...

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