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ZigBee Wireless Sensor and Control Network [Mīkstie vāki]

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  • Formāts: Paperback / softback, 288 pages, height x width x depth: 228x179x17 mm, weight: 540 g
  • Izdošanas datums: 05-Nov-2009
  • Izdevniecība: Pearson
  • ISBN-10: 0137134851
  • ISBN-13: 9780137134854
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  • Cena: 65,11 €
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ZigBee Wireless Sensor and Control NetworkPalielināt
  • Formāts: Paperback / softback, 288 pages, height x width x depth: 228x179x17 mm, weight: 540 g
  • Izdošanas datums: 05-Nov-2009
  • Izdevniecība: Pearson
  • ISBN-10: 0137134851
  • ISBN-13: 9780137134854
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780137134854.html
Keywords:

The First Practical Guide to Advanced Wireless Development with ZigBee Technologies

Supported by more than a hundred companies, the new ZigBee standard enables powerful new wireless applications for safety, security, and control, ranging from smart energy to home automation and medical care to advanced remote control. ZigBee Wireless Sensor and Control Network brings together all the knowledge professionals need to start building effective ZigBee solutions.

The only simple, concise guide to ZigBee architecture, concepts, networking, and applications, this book thoroughly explains the entire ZigBee protocol stack and covers issues ranging from routing to security. It also presents detailed, practical coverage of ZigBee features for home automation, smart energy networking, and consumer electronics.

Topics include

• Fundamental wireless concepts: OSI Model, error detection, the ISM Band, modulation, WLAN, FHSS, DSSS, Wireless MANs, Bluetooth, and more

• ZigBee essentials: applications, characteristics, device types, topologies, protocol architecture, and expanded ZigBee PRO features

• Physical layer: includes frequency bands, data rate, channels, data/management services, transmitter power, and receiver sensitivity

• MAC layer: data/management services, MAC layer information base, access methods, and frames

• Network layer: data entities, NIB, device configuration, starting network, addressing, discovery, channel scanning, and more

• Application support sublayer and application layer: includes profiles, cluster format, attributes, device discovery, and binding

• ZigBee network security: includes encryption, trust center, security modes, and security management primitives

• Address assignment and routing techniques

• Alternative technologies: 6lowpan, WirelessHART, and Z-wave

Preface xiii
Introduction to Wireless Networks
1(30)
Introduction
1(2)
The Open Systems Interconnection (OSI) Reference Model
3(2)
IEEE 802 Standard Committee
5(1)
Wireless Technologies
6(2)
Antenna
8(1)
Error-Detection Methods
9(4)
ISM and U-NII Bands
13(1)
Modulation
13(4)
Wireless Local-Area Network (WLAN)
17(3)
Frequency-Hopping Spread Spectrum (FHSS)
20(1)
Direct-Sequence Spread Spectrum (DSSS)
20(1)
Wireless MAN
21(4)
Bluetooth
25(6)
Summary
28(2)
References
30(1)
ZigBee Wireless Sensor and Control Network
31(18)
Introduction
31(2)
ZigBee Network Characteristics
33(1)
ZigBee Device Types
34(1)
ZigBee Topologies
35(4)
End Device (Node) Addressing
39(1)
Depth of a Network, Number of Children, and Network Address Allocation
40(1)
ZigBee Protocol Architecture
40(3)
ZigBee and ZigBee PRO Feature Sets
43(6)
Summary
46(1)
References
47(2)
IEEE 802.15.4 Physical Layer
49(22)
Introduction
49(1)
Frequency Band, Data Rate, and Channel Numbering
50(2)
Physical Layer Services
52(5)
Transmitter Power and Receiver Sensitivity
57(3)
Physical Layer Information Base (PIB)
60(1)
Physical Layer Transmission
61(10)
Summary
68(1)
References
69(2)
IEEE 802.15.4 Media Access Control (MAC) Layer
71(28)
Introduction
71(1)
MAC Layer Services
71(4)
MAC Layer Information Base (MIB)
75(2)
MAC Management Services
77(6)
Scanning Channels
83(1)
Access Method
84(4)
Data Transfer Model
88(2)
MAC Frame Format
90(4)
Association Request
94(2)
Disassociation Notification Command
96(1)
Orphan Notification
96(1)
Beacon Request
97(1)
Coordinator Realignment Command
97(2)
Summary
98(1)
References
98(1)
Network Layer
99(20)
Introduction
99(1)
Network Layer Data Entity (NLDE) Services
100(2)
Network Information Base (NIB)
102(3)
Network Layer Management Entity (NLME)
105(3)
Network Formation
108(2)
Joining a Network
110(2)
Network Layer Frame Format
112(2)
Neighbor Table
114(1)
Network Command Frame Format
114(5)
Summary
116(1)
References
117(2)
ZigBee Application Support Sublayer (APS)
119(10)
Introduction
119(1)
Application Support Data Entity (APSDE)
119(3)
Application Support Sublayer Management Entity (ASME)
122(1)
Application Support Sublayer Information Base (AIB)
123(1)
Persistent Data
124(1)
Application Support Sublayer Frame Format
125(2)
APS Command Frame Format
127(2)
Summary
128(1)
References
128(1)
Application Layer
129(26)
Introduction
129(1)
Application Object (Endpoint)
129(1)
Attribute, Cluster, Cluster Library, and Profile
130(2)
Cluster
132(2)
General Cluster Commands
134(1)
Attribute Reporting
135(2)
ZigBee Cluster Libraries
137(3)
ZigBee Device Object (ZDO)
140(1)
ZigBee Device Profile (ZDP)
140(3)
Device Discovery
143(3)
Binding
146(4)
Network Management Commands
150(1)
ZigBee Coordinator Startup
151(4)
Summary
151(2)
References
153(2)
ZigBee Security
155(22)
Introduction
155(1)
Elements of Network Security
155(1)
Introduction to Cryptography
156(4)
ZigBee Security
160(1)
ZigBee Security Modes
161(3)
Security Management Primitives
164(1)
Counter (CTR) Mode Encryption
165(1)
Cipher Block Chaining (CBC) Mode Encryption
166(1)
Network Layer Security
166(2)
Application Support SubLayer Security
168(9)
Summary
174(1)
References
175(2)
Address Assignment and Routing
177(16)
Introduction
177(1)
Address Assignment Using Distributed Scheme
177(2)
Stochastic Address Assignment
179(1)
Routing
179(3)
Dynamic Source Routing (DSR)
182(1)
ZigBee Routing
183(4)
ZigBee Routing Commands
187(6)
Summary
191(1)
References
191(2)
ZigBee Home Automation and Smart Energy Network
193(14)
Home Automation Profile
193(4)
Smart Energy Network
197(3)
ZigBee Stack Profile for Smart Energy (SE) Profile
200(3)
Smart Energy Cluster
203(1)
Smart Energy Device
203(4)
Summary
204(1)
References
205(2)
ZigBee RF4CE
207(12)
Introduction
207(1)
RF4CE Nodes and Topology
208(1)
RF4CE Protocol Architecture
209(1)
Network Layer Data Services
210(1)
Network Layer Management Services
211(1)
Network Layer Information Base (NIB)
212(1)
Discovery Process
213(1)
Pairing Process
214(5)
Summary
216(1)
References
217(2)
Appendix A 61owpan
219(10)
Introduction
219(1)
A.1 IPv6 Structure
220(2)
A.2 User Datagram Protocol (UDP)
222(1)
A.3 IEEE 802.15.4 MAC and Physical Layer Frame Format
222(1)
A.4 64-Bit Global Identifier
223(1)
A.5 Adaptation Layer
223(5)
A.6 Fragmented IPv6 Payload
228(1)
Appendix B Wireless Hart
229(6)
Introduction
229(1)
B.1 Wireless HART Physical Layer
230(1)
B.2 Wireless HART Data Link Layer
230(1)
B.3 Wireless HART Network Layer
231(1)
B.4 Wireless HART Network Components
231(1)
B.5 Network Formation
232(1)
B.6 Security
233(1)
B.7 Wireless HART Data Transfer Mode
233(2)
Appendix C Z-Wave
235(2)
Introduction
235(1)
C.1 Z-Wave Protocol Architecture
235(1)
C.2 RF Media
236(1)
C.3 MAC Layer
236(1)
Appendix D Abbreviations
237(4)
Bibliography 241(4)
Index 245
Ata Elahi has been a Professor in the Computer Science Department of Southern Connecticut State University since 1986. His research areas include computer networks, data communication, computer hardware design, and pipeline processors. Elahis books include Data, Network, and Internet Communications Technology and Communication Network Technology. He holds a Ph.D. in Electrical Engineering from Mississippi State University.

 

Adam Gschwender is a professional software engineer.