A collection of sensors is fairly useless unless the data they collect can be transmitted and processed. Whether that is a local embedded controller or sent upstream to a cloud, more hardware is needed to build the system. Typically, the sensors will use established IO interface and communication systems, such as I2C, SPI, UART, SPI, or other low-speed IOs. Other devices such as video systems will need much faster IO to maintain high resolution and fast video frame rates such as MIPI, USB, or even PCI-Express. To communicate wirelessly, the sensors will need to be used with wireless transport hardware like Bluetooth, Zigbee, or 802.11. All this requires extra componentry, which we will cover in this section.
Internet of Things for Architects
By :
Internet of Things for Architects
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Overview of this book
The Internet of Things (IoT) is the fastest growing technology market. Industries are embracing IoT technologies to improve operational expenses, product life, and people's well-being. An architectural guide is necessary 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 devices.
This book encompasses the entire spectrum of IoT solutions, from sensors to the cloud. We start by examining modern sensor systems and focus on their power and functionality. After that, we dive deep into communication theory, paying close attention to near-range PAN, including the new Bluetooth® 5.0 specification and mesh networks. Then, we explore IP-based communication in LAN and WAN, including 802.11ah, 5G LTE cellular, Sigfox, and LoRaWAN. Next, we cover edge routing and gateways and their role in fog computing, as well as the messaging protocols of MQTT and CoAP.
With the data now in internet form, you'll get an understanding of cloud and fog architectures, including the OpenFog standards. We wrap up the analytics portion of the book with the application of statistical analysis, complex event processing, and deep learning models. Finally, we conclude by providing a holistic view of the IoT security stack and the anatomical details of IoT exploits while countering them with software defined perimeters and blockchains.
Table of Contents (15 chapters)
Preface
IoT Architecture and Core IoT Modules
Sensors, Endpoints, and Power Systems
Communications and Information Theory
Non-IP Based WPAN
IP-Based WPAN and WLAN
Long-Range Communication Systems and Protocols (WAN)
Routers and Gateways
IoT Edge to Cloud Protocols
Cloud and Fog Topologies
Data Analytics and Machine Learning in the Cloud and in the Fog
IoT Security
Consortiums and Communities
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