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Author:   Ata Elahi ,  Adam Gschwender
Publisher:   Pearson Education (US)
Imprint:   Pearson
Dimensions:   Width: 17.90cm , Height: 1.70cm , Length: 22.80cm
Weight:   0.540kg
ISBN:  

9780137134854

ISBN 10:   0137134851
Pages:   288
Publication Date:   05 November 2009
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Preface     xiii   CHAPTER 1    Introduction to Wireless Networks     1 Introduction     1 1.1  The Open Systems Interconnection (OSI) Reference Model     3 1.2  IEEE 802 Standard Committee     5 1.3  Wireless Technologies     6 1.4  Antenna     8 1.5  Error-Detection Methods     9 1.6  ISM and U-NII Bands     13 1.7  Modulation     13 1.8  Wireless Local-Area Network (WLAN)     17 1.9  Frequency-Hopping Spread Spectrum (FHSS)     20 1.10  Direct-Sequence Spread Spectrum (DSSS)     20 1.11  Wireless MAN     21 1.12  Bluetooth     25 Summary     28 References     30   CHAPTER 2    ZigBee Wireless Sensor and Control Network     31 Introduction     31 2.1  ZigBee Network Characteristics     33 2.2  ZigBee Device Types     34 2.3  ZigBee Topologies     35 2.4  End Device (Node) Addressing     39 2.5  Depth of a Network, Number of Children, and Network Address Allocation     40 2.6  ZigBee Protocol Architecture     40 2.7  ZigBee and ZigBee PRO Feature Sets     43 Summary     46 References     47   CHAPTER 3    IEEE 802.15.4 Physical Layer     49 Introduction     49 3.1  Frequency Band, Data Rate, and Channel Numbering     50 3.2  Physical Layer Services    52 3.3  Transmitter Power and Receiver Sensitivity    57 3.4  Physical Layer Information Base (PIB)     60 3.5  Physical Layer Transmission    61 Summary    68 References     69   CHAPTER 4    IEEE 802.15.4 Media Access Control (MAC) Layer     71 Introduction    71 4.1  MAC Layer Services    71 4.2  MAC Layer Information Base (MIB)     75 4.3  MAC Management Services     77 4.4  Scanning Channels     83 4.5  Access Method     84 4.6  Data Transfer Model 88 4.7  MAC Frame Format     90 4.8  Association Request    94 4.9  Disassociation Notification Command     96 4.10  Orphan Notification    96 4.11  Beacon Request    97 4.12  Coordinator Realignment Command 97    Summary    98 References     98   CHAPTER 5    Network Layer    99 Introduction     99 5.1  Network Layer Data Entity (NLDE) Services     100 5.2  Network Information Base (NIB)     102 5.3  Network Layer Management Entity (NLME)     105 5.4  Network Formation     108 5.5  Joining a Network     110 5.6  Network Layer Frame Format     112 5.7  Neighbor Table     114 5.8  Network Command Frame Format     114 Summary     116 References     117   CHAPTER 6    ZigBee Application Support Sublayer (APS)     119 Introduction    119 6.1  Application Support Data Entity (APSDE)     119 6.2  Application Support Sublayer Management Entity (ASME)     122 6.3  Application Support Sublayer Information Base (AIB)     123 6.4  Persistent Data     124 6.5  Application Support Sublayer Frame Format     125 6.6  APS Command Frame Format     127 Summary     128 References     128   CHAPTER 7    Application Layer    129 Introduction    129 7.1  Application Object (Endpoint)     129 7.2  Attribute, Cluster, Cluster Library, and Profile    130 7.3  Cluster     132 7.4  General Cluster Commands    134 7.5  Attribute Reporting     135 7.6  ZigBee Cluster Libraries    137 7.7  ZigBee Device Object (ZDO)     140 7.8  ZigBee Device Profile (ZDP)     140 7.9  Device Discovery    143 7.10  Binding     146 7.11  Network Management Commands     150 7.12  ZigBee Coordinator Startup    151 Summary     151 References    153   CHAPTER 8    ZigBee Security     155 Introduction     155 8.1  Elements of Network Security    155 8.2  Introduction to Cryptography    156 8.3  ZigBee Security     160 8.4  ZigBee Security Modes    161 8.5  Security Management Primitives     164 8.6  Counter (CTR) Mode Encryption     165 8.7  Cipher Block Chaining (CBC) Mode Encryption     166 8.8  Network Layer Security     166 8.9  Application Support SubLayer Security     168 Summary     174 References     175   CHAPTER 9    Address Assignment and Routing     177 Introduction     177 9.1  Address Assignment Using Distributed Scheme     177 9.2  Stochastic Address Assignment    179 9.3  Routing    179 9.4  Dynamic Source Routing (DSR)     182 9.5  ZigBee Routing    183 9.6  ZigBee Routing Commands     187 Summary     191 References    191   CHAPTER 10    ZigBee Home Automation and Smart Energy Network    193 10.1  Home Automation Profile     193 10.2  Smart Energy Network    197 10.3  ZigBee Stack Profile for Smart Energy (SE) Profile     200 10.4  Smart Energy Cluster     203 10.5  Smart Energy Device     203 Summary     204 References     205   CHAPTER 11    ZigBee RF4CE     207 Introduction     207 11.1  RF4CE Nodes and Topology    208 11.2  RF4CE Protocol Architecture     209 11.3  Network Layer Data Services    210 11.4  Network Layer Management Services    211 11.5  Network Layer Information Base (NIB)     212 11.6  Discovery Process    213 11.7  Pairing Process     214 Summary    216 References     217   APPENDIX A   6lowpan     219 Introduction     219 A.1  IPv6 Structure    220 A.2  User Datagram Protocol (UDP)     222 A.3  IEEE 802.15.4 MAC and Physical Layer Frame Format     222 A.4  64-Bit Global Identifier    223 A.5  Adaptation Layer     223 A.6  Fragmented IPv6 Payload    228   APPENDIX B   Wireless HART     229 Introduction    229 B.1  Wireless HART Physical Layer     230 B.2  Wireless HART Data Link Layer     230 B.3  Wireless HART Network Layer    231 B.4  Wireless HART Network Components     231 B.5  Network Formation     232 B.6  Security     233 B.7  Wireless HART Data Transfer Mode     233   APPENDIX C   Z-Wave    235 Introduction    235 C.1  Z-Wave Protocol Architecture     235 C.2  RF Media     236 C.3  MAC Layer     236   APPENDIX D   Abbreviations    237   Bibliography     241 Index     245  

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Author Information

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. Elahi’s 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.  

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