Book Image

Mastering Machine Learning with Spark 2.x

By : Michal Malohlava, Alex Tellez, Max Pumperla
Book Image

Mastering Machine Learning with Spark 2.x

By: Michal Malohlava, Alex Tellez, Max Pumperla

Overview of this book

The purpose of machine learning is to build systems that learn from data. Being able to understand trends and patterns in complex data is critical to success; it is one of the key strategies to unlock growth in the challenging contemporary marketplace today. With the meteoric rise of machine learning, developers are now keen on finding out how can they make their Spark applications smarter. This book gives you access to transform data into actionable knowledge. The book commences by defining machine learning primitives by the MLlib and H2O libraries. You will learn how to use Binary classification to detect the Higgs Boson particle in the huge amount of data produced by CERN particle collider and classify daily health activities using ensemble Methods for Multi-Class Classification. Next, you will solve a typical regression problem involving flight delay predictions and write sophisticated Spark pipelines. You will analyze Twitter data with help of the doc2vec algorithm and K-means clustering. Finally, you will build different pattern mining models using MLlib, perform complex manipulation of DataFrames using Spark and Spark SQL, and deploy your app in a Spark streaming environment.
Table of Contents (9 chapters)
3
Ensemble Methods for Multi-Class Classification

Word2vec explained

First things first: word2vec does not represent a single algorithm but rather a family of algorithms that attempt to encode the semantic and syntactic meaning of words as a vector of N numbers (hence, word-to-vector = word2vec). We will explore each of these algorithms in depth in this chapter, while also giving you the opportunity to read/research other areas of vectorization of text, which you may find helpful.

What is a word vector?

In its simplest form, a word vector is merely a one-hot-encoding, whereby every element in the vector represents a word in our vocabulary, and the given word is encoded with 1 while all the other words elements are encoded with 0. Suppose our vocabulary only has the following...