Wi-Fi, Bluetooth, Zigbee and WiMAX

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Автор: Houda Labiod; Hossam Afifi; C. De Santis

Название: Wi-Fi, Bluetooth, Zigbee and WiMAX

Язык: english

Издательство: Dordrecht: Springer

Год: 2007

Формат: pdf

Размер: 120 mb

Страниц: xvi, 316

The book provides a complete and detailed description of the recent wireless technologies including Wi-Fi, Bluetooth, ZigBee and WiMAX. These technologies are considered to be important topics in the telecommunication industry in the next decade. Some critical subjects are particularly developed such as security, quality of service, roaming and power conservation. The book also includes some chapters on practical aspects.

Dedication

Preface

Foreword

1 Introduction

2 Wi-Fi: Architecture and Functions

1. WLAN Roadmap via IEEE 802.11 Family Evolution

1.1 Panorama of Standards

1.2 Features of the Different WLAN Generations

1.3 WLAN Markets

2. IEEE 802.11 Architecture

2.1 Three Basic Operational Modes

2.2 Possible Configurations

2.3 Basic Services

2.4 Description of Sublayers’ Structures

3. Different Physical Layers

3.1 Frequency Hopping Spread Spectrum-based Physical Layer

3.2 Direct Sequence Spread Spectrum-based Physical Layer

3.3 Infrared Transmission

3.4 IEEE 802.11 b Standard high Rate Direct Sequence Spread Spectrum-based Physical Layer

3.5 The OFDM Technique of the IEEE 802.11 a/g Standards

3.6 The IEEE 802.11 n Physical Layer

3.7 Frame Formats

4. Data Link Layer

5. Medium Access Control Layer

5.1 Medium Access Mechanisms

5.2 Basic Access Technique CSMA/CA

5.3 Virtual Carrier Sense CSMA/CA Mechanism w ith Short Messages RTS and CTS

5.4 PCF and HCF

5.5 Frames Formats

6. Functions

6.1 Addressing

6.2 Association. Reassociation and Disassociation

6.3 Fragmentation and Reassembling

6.4 Roaming

6.5 Synchronization

6.6 Energy Conserving

6.7 Management Frames Format

7. Mobility

8. Security

9. IEEE 802.11 Family and its Derivative Standards

9.1 IEEE 802.11g

9.2 IEEE802.11e

9.3 IEEE 802.11d

9.4 IEEE 802.11F

9.5 IEEE 802.11h

9.6 IEEE 802.11i and IEEE 802.1X

9.7 IEEE 802.11k

9.8 IEEE 802.11j

9.9 IEEE 802.11p

9.10 IEEE 802.11u

9.11 IEEE 802.11v

9.12 IEEE 802.11r (Fast Roaming/Fast BSS Transition)

9.13 IEEE 802.11s

9.14 IEEE 802.11w

10. Wi-Fi and Other Technologies. Concurrency or Complementarity?

3 BluetoothTMi Architecture and Functions

1. Introduction

1.1 SIG

1.2 Bluetooth Does it Relate to Teeth by Any Sense?

1.3 Applications

2. Architecture and Throughputs

2.1 Architecture

2.2 Throughputs and Versions

3. Physical Layer and Physical Channels

3.1 Frequency Bands and RF Channels

4. Baseband Layer

4.1 Physical Characteristics

4.2 Addressing

4.3 Bluetooth Packets

4.4 Error Control

5. Link Manager Protocol

5.1 LMP_Sniff_Req. LMP_Unsniff.Req

5.2 LMP_Host_Connection_Req. LMP_Setup_Complete

5.3 LMP_ AU_RAND. LMP_SRES

6. Logical Link Control and Adaptation Protocol

6.1 L2CAP Connection Establishment Procedures

6.2 Some L2CAP Functions

7. RFCOMM Protocol

8. Service Discovery' Protocol

9. Profiles

10. Host Control Interface

11. Bluetooth Network Encapsulation Protocol

12. Conclusion

IEEE 802.15.4 andZigBee

1. General Architecture

2. Physical Layer

2.1 2450 MHz Physical Layer

2.2 868/915 MHz Physical Layer

2.3 PDU Packet Format

3. MAC Layer

3.1 Channel Access

3.2 Energy Detection

3.3 Active and Passive Scan

3.4 Association Procedure

3.5 Guaranteed Time Slot

4. Security

5. Frame Structures

5.1 Beacon Frame

5.2 Data Frame

6. ZigBee

7. Conclusion

5 WiMAX and IEEE 802.16

1. Introduction

1.1 Backhaul Solutions

1.2 Mobile Solutions

1.3 Business Model

1.4 Evolution of the IEEE 802.16 Group Activities

1.5 Equipment Category and Frequency Bands

1.6 Layers and Architecture

2. MAC Layer

2.1 Automatic Repeat Request

2.2 Scheduling and QoS

2.3 Contention Resolution in IEEE 802.16

2.4 Adaptive Antenna System

2.5 Joining an IEEE 802.16 Network and Initialization

2.6 PDUs

2.7 PDU Organization

3. Physical Layer

3.1 IEEE 802.16 SC (Single Carrier)

3.2 The Single Carrier in Lower Bands

3.3 OFDM Physical Layer

3.4 OFDMA Physical Layer

6 Security in WLAN, WPAN. WSN and WMAN through Wi-Fi, Bluetooth, ZigBee and WiMAX

1. Security in Wi-Fi Systems

1.1 Security in Wi-Fi Networks

1.2 Security Flaw's

1.3 Taxonomy of Attacks

1.4 Diverse Solutions

1.5 WPA/WPA2: IEEE 802.1X and TKIP/AES

1.6 Synthesis

2. Security in Bluetooth Systems

2.1 Security Architecture

2.2 Main Procedures

2.3 Security Flaw's

2.4 Synthesis

3. ZigBee Security

3.1 ZigBee Security Architecture

3.2 Mechanisms

3.3 Trust Centre Concept

4. WiMAX and IEEE 802.16 Security

4.1 IEEE 802.16 MAC Security Sublayer

4.2 PKM Protocol

4.3 Traffic Encryption Key

4.4 Security Enhancement for Mobile Communications

5. Conclusion

7 Practising

1. Mastering the TinyOS Platform

1.1 Brief Historical Notes and State-of-the-art in TinyOS

1.2 Basic Concepts of TinyOS and neSC

1.3 Case Study: Crossbow' Motes

1.4 Experimentation and Measurements

2. Practising WiMAX Equipment

2.1 General Objectives and Action Plan

2.2 Case Study: Redline WiMAX Equipment

2.3 Lab Experiments

Appendix A: Structure of IEEE 802.11 Packets at Various Physical Layers

1. Packet Format of Frequency Hopping Spread-spectrum Physical Layer (FHSS PHY)

1.1 Preamble

1.2 Physical Layer Convergence Protocol Header

2. Packet Format of Direct-Sequence Spread Spectrum Physical Layer (DSSS PHY)

2.1 Preamble

2.2 PLCP Header

3. Packet Format of IEEE 802.1 lb HR/DSSS PHY

4. Packet Format of Infrared Physical Layer (IR PHY)

4.1 Preamble

4.2 Physical Layer Convergence Protocol header

5. Packet Format of OFDM PHY (Physical Layer of IEEE 802.11a)

5.1 Preamble

5.2 PLCP Header

Appendix B: IEEE 802.11 MAC Frames Structure

1. Different Types of MAC Frames

2. Management Frames

3. Beacon Frames

4. Association Frames

5. Reassociation

6. Disassociation Frames

7. Probe Request Frames

8. Authentication Frames

9. Deauthentication Frames

10. Traffic Indication Map Structure

11. Status Codes

Glossary

References