F# for Machine Learning Essentials

F# for Machine Learning Essentials

By : Sudipta Mukherjee

Buy this Book

F# for Machine Learning Essentials

By: Sudipta Mukherjee

Buy this Book

Overview of this book

The F# functional programming language enables developers to write simple code to solve complex problems. With F#, developers create consistent and predictable programs that are easier to test and reuse, simpler to parallelize, and are less prone to bugs. If you want to learn how to use F# to build machine learning systems, then this is the book you want. Starting with an introduction to the several categories on machine learning, you will quickly learn to implement time-tested, supervised learning algorithms. You will gradually move on to solving problems on predicting housing pricing using Regression Analysis. You will then learn to use Accord.NET to implement SVM techniques and clustering. You will also learn to build a recommender system for your e-commerce site from scratch. Finally, you will dive into advanced topics such as implementing neural network algorithms while performing sentiment analysis on your data.

F# for Machine Learning Essentials

Credits

Foreword

About the Author

Acknowledgments

About the Reviewers

www.PacktPub.com

Preface

Free Chapter

Introduction to Machine Learning

Objective

Why use F#?

Unsupervised learning

Machine learning frameworks

Machine learning for fun and profit

Recognizing handwritten digits – your "Hello World" ML program

Summary

Linear Regression

Objective

Different types of linear regression algorithms

APIs used

The basics of matrices and vectors (a short and sweet refresher)

QR decomposition of a matrix

Linear regression method of least square

Finding linear regression coefficients using F#

Finding the linear regression coefficients using Math.NET

Putting it together with Math.NET and FsPlot

Multiple linear regression

Multiple linear regression and variations using Math.NET

Weighted linear regression

Plotting the result of multiple linear regression

Ridge regression

Multivariate multiple linear regression

Feature scaling

Summary

Classification Techniques

Objective

Different classification algorithms you will learn

Some interesting things you can do

Understanding logistic regression

Multiclass classification using logistic regression

Multiclass classification using decision trees

Predicting a traffic jam using a decision tree: a case study

Challenge yourself!

Summary

Information Retrieval

Objective

Different IR algorithms you will learn

What interesting things can you do?

Information retrieval using tf-idf

Collaborative Filtering

Objective

Different classification algorithms you will learn

Vocabulary of collaborative filtering

Baseline predictors

Item-item collaborative filtering

Top-N recommendations

Evaluating recommendations

Ranking accuracy metrics

Working with real movie review data (Movie Lens)

Summary

Sentiment Analysis

Objective

What you will learn

A baseline algorithm for SA using SentiWordNet lexicons

Handling negations

Identifying praise or criticism with sentiment orientation

Pointwise Mutual Information

Using SO-PMI to find sentiment analysis

Summary

Anomaly Detection

Objective

Detecting point anomalies using IQR (Interquartile Range)

Detecting point anomalies using Grubb's test

Grubb's test for multivariate data using Mahalanobis distance

Chi-squared statistic to determine anomalies

Detecting anomalies using density estimation

Strategy to convert a collective anomaly to a point anomaly problem

Dealing with categorical data in collective anomalies

Summary

Index

Customer Reviews

5 star

4 star

3 star

2 star

1 star

Multiple linear regression

Sometimes it makes more sense to include more predictors (that is, the independent variables) to find the value of the dependent variable (that is, the predicted variable). For example, predicting the price of a house based only on the total area is probably not a good idea. Maybe the price also depends on the number of bathrooms and the distance from several required facilities, such as schools, grocery stores, and so on.

So we might have a dataset as shown next, and the problem we pose for our linear regression model is to predict the price of a new house given all the other parameters: