Internet of Things for architects : architecting IoT solutions by implementing sensors, communication infrastructure, edge computing, analytics, and security / Perry Lea.

Annotation Learn to design, implement and secure your IoT infrastructureKey FeaturesBuild a complete IoT system that is the best fit for your organizationLearn about different concepts, technologies, and tradeoffs in the IoT architectural stack Understand the theory, concepts, and implementation of each element that comprises IoT design--from sensors to the cloudImplement best practices to ensure the reliability, scalability, robust communication systems, security, and data analysis in your IoT infrastructureBook DescriptionThe 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.What you will learn Understand the role and scope of architecting a successful IoT deployment, from sensors to the cloud Scan the landscape of IoT technologies that span everything from sensors to the cloud andeverything in between See the trade-offs in choices of protocols and communications in IoT deployments Build a repertoire of skills and the vernacular necessary to work in the IoT space Broaden your skills in multiple engineering domains necessary for the IoT architectWho this book is forThis book is for architects, system designers, technologists, and technology managers who want to understand the IoT ecosphere, various technologies, and tradeoffs and develop a 50,000-foot view of IoT architecture.

online resource; title from title page (Safari, viewed February 16, 2018).

Cover; Copyright and Credits; Packt Upsell; Contributors; Table of Contents; Preface; Chapter 1: The IoT Story; History of the IoT; IoT potential; Industrial and manufacturing; Industrial and manufacturing IoT use cases and impact; Consumer; Consumer IoT use cases; Retail, financial, and marketing; Retail IoT use cases; Healthcare; Healthcare IoT use cases; Transportation and logistics; Transportation and logistics  IoT use cases; Agricultural and environmental; Agricultural and environmental  IoT use cases; Energy; Energy IoT use cases; Smart city; Smart city IoT use cases.

Government and militaryGovernment and military IoT use cases; Summary; Chapter 2: IoT Architecture and Core IoT Modules; IoT ecosystem; IoT versus machine to machine; The value of a network and Metcalfe's and Beckstrom's law; IoT architecture; Role of an architect; Part 1 â#x80;#x93; Sensing and power; Part 2 â#x80;#x93; Data communication; Part 3 â#x80;#x93; Internet routing and protocols; Part 4 â#x80;#x93; Fog and edge compute, analytics, and machine learning; Part 5 â#x80;#x93; Threat and security in IoT; Summary; Chapter 3: Sensors, Endpoints, and Power Systems; Sensing devices; Thermocouples and temperature sensing.

ThermocouplesResistance Temperature Detectors; Thermistors; Temperature sensor summary; Hall effect sensors and current sensors; Photoelectric sensors; PIR sensors; LiDAR and active sensing systems; MEMS sensors; MEMS accelerometers and gyroscopes; MEMS microphones; MEMS pressure sensors; Smart IoT endpoints; Vision system; Sensor fusion; Input devices; Output devices; Functional examples (putting it all together); Functional example â#x80;#x93; TI SensorTag CC2650; Sensor to controller; Energy sources and power management; Power management; Energy harvesting; Solar harvesting.

Piezo-mechanical harvestingRF energy harvesting; Thermal harvesting; Energy storage; Energy and power models; Batteries; Supercapacitors; Radioactive power sources; Energy storage summary and other forms of power; Summary; Chapter 4: Communications and Information Theory; Communication theory; RF energy and theoretical range; RF interference; Information theory; Bitrate limits and the Shannon-Hartley theorem; Bit error rate; Narrowband versus wideband communication; The radio spectrum; Governing structure; Summary; Chapter 5: Non-IP Based WPAN; Wireless personal area network standards.

802.15 standardsBluetooth; Bluetooth history; Bluetooth 5 communication process and topologies; Bluetooth 5 stack; Bluetooth 5 PHY and interference ; Bluetooth packet structure; BR/EDR operation; BLE operation; Bluetooth profiles; BR/EDR security; BLE security; Beaconing; Bluetooth 5 range and speed enhancement; Bluetooth mesh introduction; Bluetooth mesh topology; Bluetooth mesh addressing modes; Bluetooth mesh provisioning; IEEE 802.15.4; IEEE 802.15.4 architecture; IEEE 802.15.4 topology; IEEE 802.15.4 address modes and packet structure; IEEE 802.15.4 start-up sequence.

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