The authors begin with a high-level overview of the Internet of Things IoT) and introduce key concepts needed to successfully design IoT solutions. Next, they walk through each key technology, protocol, and technical building block that combine into complete IoT solutions.
Building on these essentials, they present several detailed use cases, including manufacturing, energy, utilities, smart+connected cities, transportation, mining, and public safety. Networking students will gain deep insight into what IoT applications can do, and what it takes to deliver them.
Note - this text is not based on the Cisco Networking Academy course of the same name.
About the Author
David Hanes, CCIE No. 3491, is a Technical Leader specializing in IoT and working in Cisco Technical Services as part of the Cloud Support Technical Assistance Center (TAC). With experience in the incubation of new technologies, he is currently leading the TAC support effort for Cisco’s IoT cloud solutions. He also has technical expertise in the areas of collaboration and cognitive computing. Gonzalo Salgueiro, CCIE No. 4541, is a Principal Engineer in Technical Services, working on several emerging technologies and the services opportunities they offer. Gonzalo has spent more than 20 years at Cisco, establishing himself as a subject matter expert, innovator, and industry thought leader in various technologies, including Collaboration, ML/AI, Cloud, and IoT. Patrick Grossetete is a Distinguished Engineer, Technical Marketing, working on field communication architecture and design (IEEE 802.15.4g/e RF, IEEE 1901.2a PLC, LoRaWAN, IPv6, 6LoWPAN, RPL, …) in the Cisco Internet of Things Connected Group.
Rob Barton, CCIE No. 6660 (R&S and Security), CCDE No. 2013:6, is a Principal Systems Engineer working in Cisco’s Digital Transformation and Innovation organization. Rob is a registered professional engineer (P.Eng) and has worked in the IT industry for more than 20 years, the last 17 of which have been at Cisco. Rob graduated from the University of British Columbia with a degree in engineering physics, where he specialized in computer
and radio communications. Rob’s areas of interest include wireless communications, IPv6, IoT, and industrial control systems. Rob coauthored the Cisco Press book End-to-End QoS, 2nd edition. He resides in Vancouver, Canada, with his wife and two children. Jerome Henry, CCIE No. 24750, is a Principal Engineer in the Enterprise Infrastructure and Solutions Group at Cisco systems. Jerome has more than 15 years’ experience teaching technical Cisco courses in more than 15 countries and 4 languages, to audiences ranging from bachelor’s degree students to networking professionals and Cisco internal system engineers. Focusing on his wireless and networking experience, Jerome joined Cisco in 2012. Before that time, he was consulted and taught heterogeneous networks and wireless integration with the European Airespace team, which was later acquired by Cisco to become their main wireless solution. He then spent several years with a Cisco Learning partner, developing networking courses and working on training materials for emerging technologies.
Features
ll The authors begin with a high-level overview of the Internet of Things
IoT) and introduce key concepts needed to successfully design IoT
solutions. Next, they walk through each key technology, protocol, and
technical building block that combine into complete IoT solutions.
ll Building on these essentials, they present several detailed use cases,
including manufacturing, energy, utilities, smart+connected cities,
transportation, mining, and public safety. Networking students will
gain deep insight into what IoT applications can do, and what it takes
to deliver them.
Table Content
Foreword xxvi Introduction xxviii
Part I Introduction to IoT 1
Chapter 1 What Is IoT?
Chapter 2 IoT Network Architecture and Des
Part II Engineering IoT Networks
Chapter 3 Smart Objects: The “Things” in IoT
Chapter 4 Connecting Smart Objects
Chapter 5 IP as the IoT Network Layer
Chapter 6 Application Protocols for IoT
Chapter 7 Data and Analytics for IoT
Chapter 8 Securing IoT
Chapter 9 Manufacturing
Chapter 10 Oil and Gas
Chapter 11 Utilities
Chapter 12 Smart and Connected Cities
Chapter 13 Transportation
Chapter 14 Mining
Chapter 15 Public Safety
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