MySQL for the Internet of Things


Author: Charles Bell
Pub Date: 2016
Publisher: Apress
ISBN: 978-1-4842-1294-3
Pages: 335
Language: English
Format: PDF/EPUB
Size: 11 Mb

This book introduces the problems facing Internet of Things developers and explores current technologies and techniques to help you manage, mine, and make sense of the data being collected through the use of the world’s most popular database on the Internet – MySQL. The IoT is poised to change how we interact with and perceive the world around us, and the possibilities are nearly boundless. As more and more connected devices generate data, we will need to solve the problem of how to collect, store, and make sense of IoT data by leveraging the power of database systems. The book begins with an introduction of the MySQL database system and storage of sensor data. Detailed instructions and examples are provided to show how to add database nodes to IoT solutions including how to leverage MySQL high availability, including examples of how to protect data from node outages using advanced features of MySQL. The book closes with a comparison of raw and transformed data showing how transformed data can improve understandability and help you cut through a clutter of superfluous data toward the goal of mining nuggets of useful knowledge. In this book, you’ll learn to: Understand the crisis of vast volumes of data from connected devices Transform data to improve reporting and reduce storage volume Store and aggregate your IoT data across multiple database servers Build localized, low-cost MySQL database servers using small and inexpensive computers Connect Arduino boards and other devices directly to MySQL database servers Build high availability MySQL solutions among low-power computing devices


Data management for sensors and connected devices

Table of Contents

1: The Internet of Things and Data
2: Hardware for IOT Solutions
3: How IOT Data Is Stored
4: Data Transformation
5: MySQL Primer
6: Building Low-Cost MySQL Data Nodes
7: High Availability IOT Solutions
8: Demonstration of High Availability Techniques