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Internet of Things. Technologies and Applications for a New Age of Intelligence. Edition No. 2

  • Book

  • November 2018
  • Elsevier Science and Technology
  • ID: 4455025

Internet of Things: Technologies and Applications for a New Age of Intelligence outlines the background and overall vision for the Internet of Things (IoT) and Cyber-Physical Systems (CPS), as well as associated emerging technologies. Key technologies are described including device communication and interactions, connectivity of devices to cloud-based infrastructures, distributed and edge computing, data collection, and methods to derive information and knowledge from connected devices and systems using artificial intelligence and machine learning. Also included are system architectures and ways to integrate these with enterprise architectures, and considerations on potential business impacts and regulatory requirements.

New to this edition: . Updated material on current market situation and outlook. . A description of the latest developments of standards, alliances, and consortia. More specifically the creation of the Industrial Internet Consortium (IIC) and its architecture and reference documents, the creation of the Reference Architectural Model for Industrie 4.0 (RAMI 4.0), the exponential growth of the number of working groups in the Internet Engineering Task Force (IETF), the transformation of the Open Mobile Alliance (OMA) to OMA SpecWorks and the introduction of OMA LightweightM2M device management and service enablement protocol, the initial steps in the specification of the architecture of Web of Things (WoT) by World Wide Consortium (W3C), the GS1 architecture and standards, the transformation of ETSI-M2M to oneM2M, and a few key facts about the Open Connectivity Forum (OCF), IEEE, IEC/ISO, AIOTI, and NIST CPS. . The emergence of new technologies such as distributed ledgers, distributed cloud and edge computing, and the use of machine learning and artificial intelligence for IoT. . A chapter on security, outlining the basic principles for secure IoT installations. . New use case description material on Logistics, Autonomous Vehicles, and Systems of CPS

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Table of Contents

PART 1 THE EVOLVING IoT LANDSCAPE 1. Introduction 2. Origins and IoT Landscape 3. A Market Perspective 4. An Architectural Perspective

PART 2 IoT TECHNOLOGIES AND ARCHITECTURES 5. Technology Fundamentals 6. Security 7. Trust, Identity and Privacy 8. Standards Architecture 9. IoT Architecture and State of the Art Reference Model 10. Real-World Design Constraints

PART 3 USE CASES 11. Introduction to Use 12. Asset Management 13. Industrial Automation 14. The Smart Grid 15. Commercial Building Automation 16. Smart Cities 17. Participatory Sensing 18. Robotics 19. Autonomous Vehicles 20. Logistics 21. Conclusions and Looking Ahead

Appendix A Open source software implementations to use IoT

Authors

Vlasios Tsiatsis Ericsson, Sweden. Vlasios Tsiatsis is a Senior Researcher at Ericsson Research, Ericsson AB and has been working on the Internet of Things (IoT) for 20 years, on subjects ranging from energy-efficient communication algorithms on 8-bit microcontrollers to streaming data analytics in the cloud and recently to IoT Security.He has contributed to several research projects on Wireless Sensor Networks by DARPA, United States, European Union research projects such as RUNES, SENSEI, IoT-i, and CityPulse as well as internal Ericsson corporate research projects around machine/man/mobile-to-machine and IoT services. Vlasios has extensive theoretical and practical experience on IoT technologies and deployments and his research interests include security, system architecture, IoT system management, machine intelligence, and analytics. He holds a PhD in the area of Networked Embedded Systems from the University of California, Los Angeles. Stamatis Karnouskos expert on the IoT at SAP, Germany.. Stamatis Karnouskos is an expert on the IoT at SAP, Germany. He investigates the added value and impact of emerging technologies in enterprise systems. For over 20 years, he has led efforts in several European Commission and industry-funded projects relate to IoT, Cyber-Physical Systems, Industrie 4.0, manufacturing, smart grids, smart cities, security, and mobility. Stamatis has extensive experience in research and technology management within the industry as well as the European Commission and several national research funding bodies (e.g., in Germany, France, Switzerland, Denmark, Czech Republic, and Greece). He has served on the technical advisory board of the Internet Protocol for Smart Objects (IPSO) Alliance and the Permanent Stakeholder Group of the European Network and nformation Security Agency (ENISA). Jan Holler Ericsson, Sweden. Jan Höller is a Research Fellow at Ericsson Research, where he has a responsibility to define and drive technology and research strategies and to contribute to the corporate strategies for the IoT. He established Ericsson's research activities in IoT over a decade ago, and he has been contributing to several European Union research projects including SENSEI, IoT-i, and Citypulse. Jan has held various positions in Strategic Product Management and Technology Management and has, since he joined Ericsson Research in 1999, led different research activities and research groups. He has served on the Board of Directors at the IPSO Alliance, the first IoT alliance formed back in 2008. He currently serves on the Board of Directors of OMA SpecWorks and is a cochair of the Networking Task Group in the Industrial Internet Consortium. David Boyle Imperial College, London, UK. David Boyle is a Lecturer in the Dyson School of Design Engineering at Imperial College London. He has more than 14 years experience developing IoT technologies across academia and industry. His research interests lie at the intersection of complex sensing, actuation, and control systems (Cyber-Physical Systems), IoT and sensor network applications, data analytics, and digital economy. David was awarded his PhD in Electronic and Computer Engineering from the University of imerick, Ireland, in 2009, following his B.Eng. (Hons) in Computer Engineering in 2005. His work has been recognized and awarded internationally and published in leading technical journals, including the IEEE Transactions on Industrial Electronics (TIE) and Informatics (TII). He actively participates in a number of Technical Programs and Organizing Committees for the premier conferences in the field. Before joining the Dyson School of Design Engineering in 2018, David was a Research Fellow in the Department of Electrical and Electronic Engineering at Imperial College London since 2012. Previously, he worked with theWireless Sensor Network and icroelectronics Applications Integration Groups in the Microsystems Centre at Tyndall National Institute, and the Embedded Systems Research Group, University College Cork, Ireland. Prior to this, he was with France Telecom R&D Orange Labs, France, and a Visiting Postdoctoral Scholar at the Higher Technical School of Telecommunications Engineering, Technical University of Madrid (ETSIT UPM), Spain Catherine Mulligan Imperial College, London, UK.. Dr Cathy Mulligan is a Visiting Researcher at Imperial College and was a founding Co-Director of the ICL Centre for Cryptocurrency Research and Engineering. She is also a Senior Research Associate at University College where she is Chief Technology Officer of the GovTech Lab and DataNet, which focuses on the potential and application of blockchain, AI and advanced communications technologies as a foundational part of the world's economy. Cathy is an expert and fellow of the World Economic Forum's Blockchain council and has recently become a member of the United Nations Secretary General's High Level Panel on Digital Co-Operation. She holds a PhD and MPhil from the University of Cambridge and is the author of several books on telecommunications including EPC and IoT.