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Statistics for Data Science

Statistics for Data Science

By : James D. Miller
3.6 (5)
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Statistics for Data Science

Statistics for Data Science

3.6 (5)
By: James D. Miller

Overview of this book

Data science is an ever-evolving field, which is growing in popularity at an exponential rate. Data science includes techniques and theories extracted from the fields of statistics; computer science, and, most importantly, machine learning, databases, data visualization, and so on. This book takes you through an entire journey of statistics, from knowing very little to becoming comfortable in using various statistical methods for data science tasks. It starts off with simple statistics and then move on to statistical methods that are used in data science algorithms. The R programs for statistical computation are clearly explained along with logic. You will come across various mathematical concepts, such as variance, standard deviation, probability, matrix calculations, and more. You will learn only what is required to implement statistics in data science tasks such as data cleaning, mining, and analysis. You will learn the statistical techniques required to perform tasks such as linear regression, regularization, model assessment, boosting, SVMs, and working with neural networks. By the end of the book, you will be comfortable with performing various statistical computations for data science programmatically.
Table of Contents (13 chapters)
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Preface
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Preface
What this book covers
What you need for this book
Who this book is for
Conventions
Reader feedback
Customer support
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1
Transitioning from Data Developer to Data Scientist
Transitioning from Data Developer to Data Scientist
Data developer thinking
Objectives of a data developer
Advantages of thinking like a data scientist
Transitioning to a data scientist
Summary
2
Declaring the Objectives
Declaring the Objectives
Key objectives of data science
Summary
3
A Developer's Approach to Data Cleaning
A Developer's Approach to Data Cleaning
Understanding basic data cleaning
R and common data issues
Transformations
Deductive correction
Deterministic imputation
Summary
4
Data Mining and the Database Developer
Data Mining and the Database Developer
Data mining
Mining versus querying
Dimensional reduction
Frequent patterning
Sequence mining
Summary
5
Statistical Analysis for the Database Developer
Statistical Analysis for the Database Developer
Data analysis
Statistical analysis
Summarization
Establishing the nature of data
Successful statistical analysis
R and statistical analysis
Summary
6
Database Progression to Database Regression
Database Progression to Database Regression
Introducing statistical regression
Identifying opportunities for statistical regression
Project profitability
R and statistical regression
A working example
Summary
7
Regularization for Database Improvement
Regularization for Database Improvement
Statistical regularization
Summary
8
Database Development and Assessment
Database Development and Assessment
Assessment and statistical assessment
Development versus assessment
Data assessment and data quality assurance
R and statistical assessment
Summary
9
Databases and Neural Networks
Databases and Neural Networks
Ask any data scientist
Summary
10
Boosting your Database
Boosting your Database
Definition and purpose
Back to boosting
Using R to illustrate boosting methods
Summary
11
Database Classification using Support Vector Machines
Database Classification using Support Vector Machines
Database classification
Definition and purpose of an SVM
Using R and an SVM to classify data in a database
Summary
12
Database Structures and Machine Learning
Database Structures and Machine Learning
Data structures and data models
Machine learning
Using R to apply machine learning techniques to a database
Summary

Conventions

In this book, you will find a number of text styles that distinguish between different kinds of information. Here are some examples of these styles and an explanation of their meaning.

Code words in text, database table names, folder names, filenames, file extensions, pathnames, dummy URLs, user input, and Twitter handles are shown as follows: In statistics, a boxplot is a simple way to gain information regarding the shape, variability, and center (or median) of a statistical data set, so we'll use the boxplot with our data to see if we can identify both the median Coin-in and if there are any outliers.

A block of code is set as follows:

MyFile <-"C:/GammingData/SlotsResults.csv" 
MyData <- read.csv(file=MyFile, header=TRUE, sep=",")

New terms and important words are shown in bold. 

Warnings or important notes appear like this.
Tips and tricks appear like this.
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