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020 _a9788126557653
028 _q2016
_bAllied Informatics, Jaipur
040 _bEnglish
_aBSDU
_cBSDU
082 _a004.678
_bHER
100 _aHersent, Olivier, Boswarthick, David
245 0 _aInternet of Things : Key, Applications and Protocols
260 _bWiley India Pvt. Ltd. India
_a New Delhi
_c2016,c2012
300 _a344
500 _aThis book describes the Home Area Networking, Building Automation and AMI protocols and their evolution towards open protocols based on IP such as 6LowPAN and ETSI M2M. The authors discuss the approach taken by service providers to interconnect the protocols and solve the challenge of massive scalability of machine-to-machine communication for mission-critical applications, based on the next generation machine-to-machine ETSI M2M architecture. The authors demonstrate, using the example of the smartgrid use case, how the next generation utilities, by interconnecting and activating our physical environment, will be able to deliver more energy (notably for electric vehicles) with less impact on our natural resources.
504 _aContents List of Acronyms Introduction Part I M2M Area Network Physical Layers 1 IEEE 802.15.4 1.1 The IEEE 802 Committee Family of Protocols 1.2 The Physical Layer 1.3 The Media-Access Control Layer 1.4 Uses of 802.15.4 1.5 The Future of 802.15.4: 802.15.4e and 802.15.4g 2 Power line Communication for M2M Applications 2.1 Overview of PLC Technologies 2.2 PLC Landscape 2.3 Power line Communication: A Constrained Media 2.4 The Ideal PLC System for M2M 2.5 Conclusion Part II Legacy M2m Protocols for Sensor Networks, Building Automation and Home Automation 3 The BACnetTM Protocol 3.1 Standardization 3.2 Technology 3.3 BACnet Security 3.4 BACnet Over Web Services (Annex N, Annex H6) 4 The LonWorks R Control Networking Platform 4.1 Standardization 4.2 Technology 4.3 Web Services Interface for LonWorks Networks: Echelon Smart Server 4.4 A REST Interface for LonWorks 5 ModBus 5.1 Introduction 5.2 ModBus Standardization 5.3 ModBus Message Framing and Transmission Modes 5.4 ModBus / TCP 6 KNX 83 6.1 The Konnex / KNX Association 6.2 Standardization 6.3 KNX Technology Overview 6.4 Device Configuration 7 ZigBee 7.1 Development of the Standard 7.2 ZigBee Architecture 7.3 Association 7.4 The ZigBee Network Layer 7.5 The ZigBee APS Layer 7.6 The ZigBee Device Object (ZDO) and the ZigBee Device Profile (ZDP) 7.7 ZigBee Security 7.8 The ZigBee Cluster Library (ZCL) 7.9 ZigBee Application Profiles 7.10 The ZigBee Gateway Specification for Network Devices 8 Z-Wave 8.1 History and Management of the Protocol 8.2 The Z-Wave Protocol Part III Legacy M2m Protocols For Utility Metering 9 M-Bus and Wireless M-Bus 9.1 Development of the Standard 9.2 M-Bus Architecture 9.3 Wireless M-Bus 10 The ANSI C12 Suite 10.1 Introduction 10.2 C12.19: The C12 Data Model 10.3 C12.18: Basic Point-to-Point Communication Over an Optical Port 10.4 C12.21: An Extension of C12.18 for Modem Communication 10.5 C12.22: C12.19 Tables Transport Over Any Networking Communication System 10.6 Other Parts of ANSI C12 Protocol Suite 10.7 RFC 6142: C12.22 Transport Over an IP Network 10.8 REST-Based Interfaces to C12.19 11 DLMS / COSEM 11.1 DLMS Standardization 11.2 The COSEM Data Model 11.3 The Object Identification System (OBIS) 11.4 The DLMS / COSEM Interface Classes 11.5 Accessing COSEM Interface Objects 11.6 End-to-End Security in the DLMS / COSEM Approach Part IV The Next Generation: IP-Based Protocols 12 6LoWPAN and RPL 12.1 Overview 12.2 What is 6LoWPAN? 6LoWPAN and RPL Standardization 12.3 Overview of the 6LoWPAN Adaptation Layer 12.4 Context-Based Compression: IPHC 12.5 RPL 12.6 Downward Routes, Multicast Membership 12.7 Packet Routing 13 ZigBee Smart Energy 2.0 13.1 REST Overview 13.2 ZigBee SEP 2.0 Overview 13.3 Function Sets and Device Types 13.4 ZigBee SE 2.0 Security 14 The ETSI M2M Architecture 14.1 Introduction to ETSI TC M2M 14.2 System Architecture 14.3 ETSI M2M SCL Resource Structure 14.4 ETSI M2M Interactions Overview 14.5 Security in the ETSI M2M Framework 14.6 Interworking with Machine Area Networks 14.7 Conclusion on ETSI M2M Part V Key Applications of The Internet of Things 15 The Smart Grid 15.1 Introduction 15.2 The Marginal Cost of Electricity: Base and Peak Production 15.3 Managing Demand: The Next Challenge of Electricity Operators . . . and Why M2M Will Become a Key Technology 15.4 Demand Response for Transmission System Operators (TSO) 15.5 Case Study: RTE in France 15.6 The Opportunity of Smart Distributed Energy Management 15.7 Demand Response: The Big Picture 15.8 Conclusion: The Business Case of Demand Response and Demand Shifting is a Key Driver for the Deployment of the Internet of Things 16 Electric Vehicle Charging 16.1 Charging Standards Overview 16.2 Use Cases 16.3 Conclusion Appendix A Normal Aggregate Power Demand of a Set of Identical Heating Systems with Hysteresis Appendix B Effect of a Decrease of Tref. The Danger of Correlation Appendix C Changing Tref without Introducing Correlation Appendix D Lower Consumption, A Side Benefit of Power Shedding Index
650 _aCSE
700 _a Elloumi, Omar
942 _2ddc
_cBK