The Internet of Things : Key Applications and Protocols.

The Internet of Things : Key Applications and Protocols.

An all-in-one reference to the major Home Area Networking, Building Automation and AMI protocols, including 802.15.4 over radio or PLC, 6LowPAN/RPL, ZigBee 1.0 and Smart Energy 2.0, Zwave, LON, BACNet, KNX, ModBus, mBus, C.12 and DLMS/COSEM, and the new ETSI M2M system level standard. In-depth cover...

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Bibliographic Details
Main Author: Hersent, Olivier
Other Authors: Boswarthick, David, Elloumi, Omar
Format: eBook
Language:English
Published: Hoboken : John Wiley & Sons, 2011.
Edition:2nd ed.
Subjects:
Computer network protocols.
COMPUTERS > Networking > Network Protocols.
Computer network protocols
Online Access:Click for online access
Table of Contents:
  • THE INTERNET OF THINGS; Contents; 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; 1.2.1 Interferences with Other Technologies; 1.2.2 Choice of a 802.15.4 Communication Channel, Energy Detection, Link Quality Information; 1.2.3 Sending a Data Frame; 1.3 The Media-Access Control Layer; 1.3.1 802.15.4 Reduced Function and Full Function Devices, Coordinators, and the PAN Coordinator; 1.3.2 Association; 1.3.3 802.15.4 Addresses; 1.3.4 802.15.4 Frame Format; 1.3.5 Security.
  • 1.4 Uses of 802.15.41.5 The Future of 802.15.4: 802.15.4e and 802.15.4g; 1.5.1 802.15.4e; 1.5.2 802.15.4g; 2 Powerline Communication for M2M Applications; 2.1 Overview of PLC Technologies; 2.2 PLC Landscape; 2.2.1 The Historical Period (1950-2000); 2.2.2 After Year 2000: The Maturity of PLC; 2.3 Powerline Communication: A Constrained Media; 2.3.1 Powerline is a Difficult Channel; 2.3.2 Regulation Limitations; 2.3.3 Power Consumption; 2.3.4 Lossy Network; 2.3.5 Powerline is a Shared Media and Coexistence is not an Optional Feature; 2.4 The Ideal PLC System for M2M.
  • 2.4.1 Openness and Availability2.4.2 Range; 2.4.3 Power Consumption; 2.4.4 Data Rate; 2.4.5 Robustness; 2.4.6 EMC Regulatory Compliance; 2.4.7 Coexistence; 2.4.8 Security; 2.4.9 Latency; 2.4.10 Interoperability with M2M Wireless Services; 2.5 Conclusion; References; Part II LEGACY M2M PROTOCOLS FOR SENSOR NETWORKS, BUILDING AUTOMATION AND HOME AUTOMATION; 3 The BACnetTM Protocol; 3.1 Standardization; 3.1.1 United States; 3.1.2 Europe; 3.1.3 Interworking; 3.2 Technology; 3.2.1 Physical Layer; 3.2.2 Link Layer; 3.2.3 Network Layer; 3.2.4 Transport and Session Layers.
  • 3.2.5 Presentation and Application Layers3.3 BACnet Security; 3.4 BACnet Over Web Services (Annex N, Annex H6); 3.4.1 The Generic WS Model; 3.4.2 BACnet/WS Services; 3.4.3 The Web Services Profile for BACnet Objects; 3.4.4 Future Improvements; 4 The LonWorks R? Control Networking Platform; 4.1 Standardization; 4.1.1 United States of America; 4.1.2 Europe; 4.1.3 China; 4.2 Technology; 4.2.1 Physical Layer; 4.2.2 Link Layer; 4.2.3 Network Layer; 4.2.4 Transport Layer; 4.2.5 Session Layer; 4.2.6 Presentation Layer; 4.2.7 Application Layer.
  • 4.3 Web Services Interface for LonWorks Networks: Echelon SmartServer4.4 A REST Interface for LonWorks; 4.4.1 LonBridge REST Transactions; 4.4.2 Requests; 4.4.3 Responses; 4.4.4 LonBridge REST Resources; 5 ModBus; 5.1 Introduction; 5.2 ModBus Standardization; 5.3 ModBus Message Framing and Transmission Modes; 5.4 ModBus/TCP; 6 KNX; 6.1 The Konnex/KNX Association; 6.2 Standardization; 6.3 KNX Technology Overview; 6.3.1 Physical Layer; 6.3.2 Data Link and Routing Layers, Addressing; 6.3.3 Transport Layer; 6.3.4 Application Layer; 6.3.5 KNX Devices, Functional Blocks and Interworking.

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