IoT and Edge Computing for Architects - Second Edition

By : Perry Lea

IoT and Edge Computing for Architects - Second Edition

By: Perry Lea

Overview of this book

Industries are embracing IoT technologies to improve operational expenses, product life, and people's well-being. An architectural guide is needed if you want to traverse the spectrum of technologies needed to build a successful IoT system, whether that's a single device or millions of IoT devices. IoT and Edge Computing for Architects, Second Edition encompasses the entire spectrum of IoT solutions, from IoT sensors to the cloud. It examines modern sensor systems, focusing on their power and functionality. It also looks at communication theory, paying close attention to near-range PAN, including the new Bluetooth® 5.0 specification and mesh networks. Then, the book explores IP-based communication in LAN and WAN, including 802.11ah, 5G LTE cellular, Sigfox, and LoRaWAN. It also explains edge computing, routing and gateways, and their role in fog computing, as well as the messaging protocols of MQTT 5.0 and CoAP. With the data now in internet form, you'll get an understanding of cloud and fog architectures, including the OpenFog standards. The book wraps up the analytics portion with the application of statistical analysis, complex event processing, and deep learning models. The book then concludes by providing a holistic view of IoT security, cryptography, and shell security in addition to software-defined perimeters and blockchains.

Preface

Who this book is for

What this book covers

Get in touch

IoT and Edge Computing Definition and Use Cases

History of the IoT

IoT potential

Definition of the Internet of Things

Example use case and deployment

Summary

Free Chapter

IoT Architecture and Core IoT Modules

A connected ecosystem

Part 1 – Sensing and power

Part 2 – Data communication

Part 3 – Edge computing

Part 4 – Compute, analytics, and machine learning

Part 5 – Threat and security in IoT

Summary

Sensors, Endpoints, and Power Systems

Sensing devices

High performance IoT endpoints

Functional examples (putting it all together)

Energy sources and power management

Summary

Communications and Information Theory

Communication theory

Information theory

The radio spectrum

Summary

Non-IP Based WPAN

802.15 standards

Bluetooth

IEEE 802.15.4

Zigbee

Z-Wave

Summary

IP-Based WPAN and WLAN

TCP/IP

WPAN with IP – 6LoWPAN

IEEE 802.11 protocols and WLAN

WPAN with IP – Thread

Summary

Long-Range Communication Systems and Protocols (WAN)

Cellular connectivity

LoRa and LoRaWAN

Sigfox

Summary

Edge Computing

Edge purpose and definition

Edge use cases

Edge hardware architectures

Operating systems

Edge platforms

Use cases for edge computing

Summary

Edge Routing and Networking

TCP/IP network functions at the edge

Edge-level network security

Software-defined networking

Summary

Edge to Cloud Protocols

Protocols

MQTT

MQTT-SN

Constrained Application Protocol

Other protocols

Protocol summary and comparison

Summary

Cloud and Fog Topologies

Cloud services model

Public, private, and hybrid cloud

The OpenStack cloud architecture

Constraints of cloud architectures for IoT

Fog computing

Summary

Data Analytics and Machine Learning in the Cloud and Edge

Basic data analytics in IoT

Machine learning in IoT

IoT data analytics and machine learning comparison and assessment

Summary

IoT and Edge Security

Cybersecurity vernacular

Anatomy of IoT cyber attacks

Physical and hardware security

Shell security

Cryptography

Software-Defined Perimeter

Blockchains and cryptocurrencies in IoT

Government regulations and intervention

IoT security best practices

Summary

Consortiums and Communities

PAN consortia

Protocol consortia

WAN consortia

Fog and edge consortia

Umbrella organizations

US government IoT and security entities

Industrial and Commercial IoT and Edge

Summary

Other Books You May Enjoy

Index

Customer Reviews

5 star

4 star

3 star

2 star

1 star

Summary

Welcome to the world of the IoT. As architects in this new field, we have to understand what the customer is building and what the use cases require. IoT systems are not a fire-and-forget type of design. A customer expects several things from jumping on the IoT train.

First, there must be a positive reward. That is dependent on your business and your customer's intent. From my experience, a 5x gain is the target and has worked well for the introduction of new technologies to preexisting industries. Second, IoT design is, by nature, a plurality of devices. The value of IoT is not a single device or a single location broadcasting data to a server. It's a set of things broadcasting information and understanding the value the information in aggregate is trying to tell you. Whatever is designed must scale or be scalable; therefore, that needs attention in upfront design.

We have learned about the segments of IoT and the projected versus actual IoT growth rates. We also have explored a single commercial use case and seen that IoT and edge computing span multiple disciplines, technologies, and functionalities. These mechanics of developing a commercially viable IoT and edge computing system will require the architect to understand these various segments and how they interrelate.

We now start exploring the topology of an IoT and edge computing system as a whole and then break down individual components throughout the rest of the book.

IoT and Edge Computing for Architects - Second Edition

By : Perry Lea

IoT and Edge Computing for Architects - Second Edition

By: Perry Lea

Overview of this book

Related Content you might be interested in

Current Title:

IoT and Edge Computing for Architects - Second Edition

Mastering 5G Network Design, Implementation, and Operations

Implementing Cellular IoT Solutions for Digital Transformation

Practical Internet of Things Security

Summary