Rayes, Ammar.
Internet of Things From Hype to Reality The Road to Digitization / [electronic resource] : by Ammar Rayes, Samer Salam. - 1st ed. 2017. - XXVIII, 328 p. 109 illus., 105 illus. in color. online resource.
1. IoT Overview -- 2. The Internet in IoT - OSI, TCP/IP, IPv4, IPv6 and Internet Routing -- 3. The Things in IoT: Sensors and Actuators -- 4. IoT Requirements for Networking Protocols -- 5. IoT Protocol Stack: Layered View -- 6. Fog Computing -- 7. IoT Services Platform: Functions and Requirements -- 8. Internet of Things Security and Privacy -- 9. IoT Vertical Markets and Connected Ecosystems -- 10. Blockchain in IoT -- 11. Industry Organizations and Standards Landscape -- 12. The Role of Open Source in IoT -- Appendix A: Glossary -- Appendix B: Examples of IoT Projects.
This book comprehensively describes an end-to-end Internet of Things (IoT) architecture that is comprised of devices, network, compute, storage, platform, and applications along with management and security components. It is organized into five main parts, comprising of a total of 11 chapters. Part I presents a generic IoT reference model to establish a common vocabulary for IoT solutions. This includes a detailed description of the Internet protocol layers and the Things (sensors and actuators) as well as the key business drivers to realize the IoT vision. Part II focuses on the IoT requirements that impact networking protocols and provides a layer-by-layer walkthrough of the protocol stack with emphasis on industry progress and key gaps. Part III introduces the concept of Fog computing and describes the drivers for the technology, its constituent elements, and how it relates and differs from Cloud computing. Part IV discusses the IoT services platform, the cornerstone of the solution followed by the Security functions and requirements. Finally, Part V provides a treatment of the topic of connected ecosystems in IoT along with practical applications. It then surveys the latest IoT standards and discusses the pivotal role of open source in IoT. “Faculty will find well-crafted questions and answers at the end of each chapter, suitable for review and in classroom discussion topics. In addition, the material in the book can be used by engineers and technical leaders looking to gain a deep technical understanding of IoT, as well as by managers and business leaders looking to gain a competitive edge and understand innovation opportunities for the future.” Dr. Jim Spohrer, IBM “This text provides a very compelling study of the IoT space and achieves a very good balance between engineering/technology focus and business context. As such, it is highly-recommended for anyone interested in this rapidly-expanding field and will have broad appeal to a wide cross-section of readers, i.e., including engineering professionals, business analysts, university students, and professors.”. Professor Nasir Ghani, University of South Florida.
9783319448602
10.1007/978-3-319-44860-2 doi
Telecommunication.
Electronics.
Application software.
User interfaces (Computer systems).
Human-computer interaction.
Communications Engineering, Networks.
Electronics and Microelectronics, Instrumentation.
Computer and Information Systems Applications.
User Interfaces and Human Computer Interaction.
TK5101-5105.9
621.382
Internet of Things From Hype to Reality The Road to Digitization / [electronic resource] : by Ammar Rayes, Samer Salam. - 1st ed. 2017. - XXVIII, 328 p. 109 illus., 105 illus. in color. online resource.
1. IoT Overview -- 2. The Internet in IoT - OSI, TCP/IP, IPv4, IPv6 and Internet Routing -- 3. The Things in IoT: Sensors and Actuators -- 4. IoT Requirements for Networking Protocols -- 5. IoT Protocol Stack: Layered View -- 6. Fog Computing -- 7. IoT Services Platform: Functions and Requirements -- 8. Internet of Things Security and Privacy -- 9. IoT Vertical Markets and Connected Ecosystems -- 10. Blockchain in IoT -- 11. Industry Organizations and Standards Landscape -- 12. The Role of Open Source in IoT -- Appendix A: Glossary -- Appendix B: Examples of IoT Projects.
This book comprehensively describes an end-to-end Internet of Things (IoT) architecture that is comprised of devices, network, compute, storage, platform, and applications along with management and security components. It is organized into five main parts, comprising of a total of 11 chapters. Part I presents a generic IoT reference model to establish a common vocabulary for IoT solutions. This includes a detailed description of the Internet protocol layers and the Things (sensors and actuators) as well as the key business drivers to realize the IoT vision. Part II focuses on the IoT requirements that impact networking protocols and provides a layer-by-layer walkthrough of the protocol stack with emphasis on industry progress and key gaps. Part III introduces the concept of Fog computing and describes the drivers for the technology, its constituent elements, and how it relates and differs from Cloud computing. Part IV discusses the IoT services platform, the cornerstone of the solution followed by the Security functions and requirements. Finally, Part V provides a treatment of the topic of connected ecosystems in IoT along with practical applications. It then surveys the latest IoT standards and discusses the pivotal role of open source in IoT. “Faculty will find well-crafted questions and answers at the end of each chapter, suitable for review and in classroom discussion topics. In addition, the material in the book can be used by engineers and technical leaders looking to gain a deep technical understanding of IoT, as well as by managers and business leaders looking to gain a competitive edge and understand innovation opportunities for the future.” Dr. Jim Spohrer, IBM “This text provides a very compelling study of the IoT space and achieves a very good balance between engineering/technology focus and business context. As such, it is highly-recommended for anyone interested in this rapidly-expanding field and will have broad appeal to a wide cross-section of readers, i.e., including engineering professionals, business analysts, university students, and professors.”. Professor Nasir Ghani, University of South Florida.
9783319448602
10.1007/978-3-319-44860-2 doi
Telecommunication.
Electronics.
Application software.
User interfaces (Computer systems).
Human-computer interaction.
Communications Engineering, Networks.
Electronics and Microelectronics, Instrumentation.
Computer and Information Systems Applications.
User Interfaces and Human Computer Interaction.
TK5101-5105.9
621.382