ZigBee wireless networks and transceivers
ZigBee is a short-range wireless networking standard backed by such industry leaders as Motorola, Texas Instruments, Philips, Samsung, Siemens, Freescale, etc. It supports mesh networking, each node can transmit and receive data, offers high security and robustness, and is being rapidly adopted in i...
| Autor principal: | |
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| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Amsterdam ; Boston :
Newnes/Elsevier
c2008.
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| Edición: | 1st edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627496006719 |
Tabla de Contenidos:
- Front Cover; ZigBee Wireless Networks and Transceivers; Copyright Page; Contents; Foreword; Preface; Abbreviations; Chapter 1 ZigBee Basics; 1.1 What Is ZigBee?; 1.2 ZigBee versus Bluetooth and IEEE 802.11; 1.3 Short-Range Wireless Networking Classes; 1.4 The Relationship Between ZigBee and IEEE 802.15.4 Standards; 1.5 Frequencies of Operation and Data Rates; 1.6 Interoperability; 1.7 Device Types; 1.8 Device Roles; 1.9 ZigBee Networking Topologies; 1.10 ZigBee and IEEE 802.15.4 Communication Basics; 1.10.1 CSMA-CA; 1.10.2 Beacon-Enabled vs. Nonbeacon Networking; 1.10.3 Data Transfer Methods
- 1.10.4 Data Verification1.10.5 Addressing; 1.11 Association and Disassociation; 1.12 Binding; 1.13 ZigBee Self-Forming and Self-Healing Characteristics; 1.14 ZigBee and IEEE 802.15.4 Networking Layer Functions; 1.14.1 PHY Layer; 1.14.2 MAC Layer; 1.14.3 The NWK Layer; 1.14.4 The APL Layer; 1.14.5 Security; 1.15 The ZigBee Gateway; 1.16 ZigBee Metaphor; References; Chapter 2 ZigBee/IEEE 802.15.4 Networking Examples; 2.1 Home Automation; 2.1.1 Security Systems; 2.1.2 Meter-Reading Systems; 2.1.3 Irrigation Systems; 2.1.4 Light Control Systems; 2.1.5 Multizone HVAC Systems
- 2.2 Consumer Electronics: Remote Control2.3 Industrial Automation; 2.3.1 Asset Management and Personnel Tracking; 2.3.2 Livestock Tracking; 2.4 Healthcare; 2.5 Other Applications; 2.5.1 Hotel Guest Room Access; 2.5.2 Fire Extinguishers; References; Chapter 3 ZigBee and IEEE 802.15.4 Protocol Layers; 3.1 ZigBee and IEEE 802.15.4 Networking Layers; 3.2 The IEEE 802.15.4 PHY Specifications; 3.2.1 Channel Assignments; 3.2.2 Energy Detection; 3.2.3 Carrier Sense; 3.2.4 Link Quality Indicator; 3.2.5 Clear Channel Assessment; 3.2.6 The PHY Constants and Attributes; 3.2.7 PHY Services
- 3.2.8 The Service Primitives3.2.9 PHY Packet Format; 3.2.10 Summary of the PHY Layer Responsibilities; 3.3 IEEE 802.15.4 MAC Layer; 3.3.1 Beacon-Enabled Operation and Superframe Structure; 3.3.2 The Interframe Spacing; 3.3.3 CSMA-CA; 3.3.4 MAC Services; 3.3.5 The MAC Frame Format; 3.3.6 The MAC Promiscuous Mode of Operation; 3.3.7 Summary of the MAC Layer Responsibilities; 3.4 The ZigBee NWK Layer; 3.4.1 Broadcasting; 3.4.2 Multicasting; 3.4.3 Many-to-One Communication; 3.4.4 Hierarchical (Tree) Topology; 3.4.5 Mesh Topology; 3.4.6 Routing; 3.4.7 Route Discovery
- 3.4.8 Route Maintenance and Repair3.4.9 The NWK Layer Data Service; 3.4.10 The NWK Layer Management Service; 3.4.11 The NWK Layer Frame Formats; 3.4.12 Summary of the NWK Layer Responsibilities; 3.5 The APL Layer; 3.5.1 The Application Framework; 3.5.2 The ZigBee Device Objects; 3.5.3 The APS Sublayer; 3.5.4 Summary of the APL Layer Responsibilities; 3.6 Security Services; 3.6.1 Encryption; 3.6.2 Authentication; 3.6.3 The Auxiliary Frame Header Format; 3.6.4 The APS Sublayer Security Commands; 3.6.5 Security Attack Examples; 3.6.6 Summary of the Security Services; References
- Chapter 4 Transceiver Requirements
