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Wireless IP and building the mobile internet / / Sudhir Dixit, Ramjee Prasad, editors
| Wireless IP and building the mobile internet / / Sudhir Dixit, Ramjee Prasad, editors |
| Pubbl/distr/stampa | Boston, Massachusetts : , : Artech House, , ©2003 |
| Descrizione fisica | 1 online resource (675 p.) |
| Disciplina | 621.382/12 |
| Altri autori (Persone) |
DixitSudhir
PrasadRamjee |
| Collana | Artech House universal personal communications series |
| Soggetto topico |
Wireless Internet
TCP/IP (Computer network protocol) Wireless communication systems |
| ISBN | 1-58053-587-9 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface xxi; Acknowledgments xxv; 1 Wireless IP 1; 2 Evolution to Wireless IP 17; 3 Wide-Area Wireless IP Connectivity with the General Packet Radio Service 27; 4 3G Networks and Standards 49; 5 UTRAN Evolution to an All-IP Architecture 67; 6 Beyond 3G: 4G IP-Based Mobile Networks 87; 7 Ad Hoc Networks: A Mobile IPv6 Viewpoint 105; 8 Differentiated and Integrated Services for IP Applications over UMTS 133; 9 Provisioning QoS in 3G Networks with RSVP Proxy 161; 10 QoS Support for VoIP over Wireless 179; 11 Delivering QoS in Mobile Ad Hoc IP Networks 203
12 Radio Access Control in Wireless IP Networks 22713 RRM in Multicarrier Allocation Based Systems 255; 14 TCP/IP over Next-Generation Broadband Wireless Access Networks 279; 15 Reliable Multicast Congestion Control for TCP/IP in Hybrid Networks 303; 16 Mobile IP: A Challenge in the Mobile World 335; 17 IP Micro-Mobility Management Using Host-Based Routing 359; 18 Handoff Initiation in Mobile IPv6 393; 19 Location Independent Network Architecture and Mobility Handling in IPv6 415; 20 Distributed Signaling and Routing Protocols in iCAR 441 21 Reducing Link and Signaling Costs in Mobile IP 45722 Enabling WAP Handoffs Between GSM and IEEE 802.11b Bearers with Mobile IP 471; 23 Interworking and Handover Mechanisms Between WLAN and UMTS 485; 24 Location-Based Push Architectures for the Mobile Internet 503; 25 Signaling Network Architecture in Wireless IP Overlay Networks 525; 26 Mobile Content Distribution for Wireless IP Networks 545; 27 Perceptual QoS for Wireless and IP Networks 559; 28 Transcoding for the Mobile Internet: The Case of Video Transcoding 571; 29 On Security in Wireless and IP Networks 587 |
| Record Nr. | UNINA-9910814746703321 |
| Boston, Massachusetts : , : Artech House, , ©2003 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Wireless LAN radios : system definition to transistor design / / Arya Behzad
| Wireless LAN radios : system definition to transistor design / / Arya Behzad |
| Autore | Behzad Arya |
| Pubbl/distr/stampa | New York ; , : Wiley-IEEE, , 2007 |
| Descrizione fisica | 1 online resource (257 p.) |
| Disciplina |
621.384
621.3845 |
| Collana | IEEE series on digital & mobile communication |
| Soggetto topico |
Portable radios
Wireless communication systems Wireless communication systems - Equipment and supplies |
| ISBN |
1-281-22171-6
9786611221713 0-470-20930-5 0-470-20927-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface -- Acronyms -- CHAPTER 1 802.11 Flavors and System Requirements -- 1.1 Definition -- 1.2 WLAN Market Trends -- 1.3 History of 802.11 -- 1.4 802.11: b, a, or g? -- 1.5 802.11b Standard -- 1.6 802.11a Channel Allocation -- 1.7 802.11a and 802.11g: OFDM Mapping -- 1.7.1 Multipath Fading -- 1.8 802.11a/g: Data Rates -- 1.9 802.11a/g OFDM Packet Construction -- 1.10 802.11 System Requirements -- 1.10.1 Receiver Sensitivity -- 1.10.2 Transmitter Error Vector Magnitude -- 1.10.3 Transmitter Spectral Mask -- 1.11 Vector Signal Analysis -- CHAPTER 2 Radio Receiver and Transmitter Architectures -- 2.1 Architectures -- 2.1.1 Superheterodyne Receiver -- 2.1.1.1 Choice of Intermediate Frequency in Superheterodyne Receiver -- 2.1.2 Low IF Receiver -- 2.1.3 Direct-Conversion Receiver -- 2.1.4 Receiver Architectures: Summary -- 2.1.5 Superheterodyne Transmitter -- 2.1.6 Low IF Transmitter -- 2.1.7 Direct-Conversion Transmitter -- 2.1.8 Polar Modulators -- 2.2 Process Choices: CMOS versus SiGe BiCMOS -- CHAPTER 3 Analog Impairments and Issues -- 3.1 Receiver Sensitivity and Noise Figure -- 3.2 Receiver DC Offsets and LO Leakage -- 3.3 Receiver Flicker Noise -- 3.4 Receiver Interferers and Intermodulation Distortion -- 3.4.1 IP3, IP2, and P1dB -- 3.4.2 Tools for Analyzing Modulated Signal Distortion -- 3.5 Receiver Image Rejection -- 3.5.1 Superheterodyne Receiver -- 3.5.2 Low IF Architecture -- 3.5.3 Direct-Conversion Receiver -- 3.6 Quadrature Balance and Relation to Image Rejection -- 3.7 Quadrature Balance and Relation to EVM -- 3.8 Other Transmitter (Modulator) Impairments -- 3.9 Peak-to-Average Ratio and Relation to Linearity and Efficiency -- 3.10 Local Oscillator Pulling in PLL -- 3.11 Phase Noise in PLL -- 3.12 Far-Out Phase Noise -- 3.13 Effect of Phase Noise on OFDM Systems -- 3.14 Effect of Frequency Errors on OFDM -- 3.15 Summary of Analog/RF Impairments -- CHAPTER 4 Some Key Radio Building Blocks -- 4.1 Low Noise Amplifier.
4.2 Mixer and its Local Oscillator Buffers -- 4.3 Power Amplifier -- 4.4 Fully Integrated VCO -- 4.5 Multifrequency (Stacked) Mixer -- 4.6 Open-Loop Transconductance Linearization Circuit -- CHAPTER 5 Calibration Techniques -- 5.1 VCO Calibration -- 5.2 Automatic Frequency Control -- 5.3 Quadrature Error and Local Oscillator Feedthrough Calibration -- 5.4 Bias Current Calibrations (R Calibration) -- 5.5 Filter Time-Constant Calibration (RC Calibration) -- 5.6 Other Calibrations -- CHAPTER 6 Case Studies -- 6.1 Case Study 1: A CMOS 802.11a Transceiver -- 6.1.1 Architecture and Circuit Implementation -- 6.1.2 Receiver -- 6.1.3 Transmitter -- 6.1.4 Phase-Locked Loop -- 6.2 Case Study 2: High Performance WLAN Transmitter Utilizing Quadrature and LOFT Calibration -- CHAPTER 7 Brief Discussion Of 802.11n and Concluding Remarks -- 7.1 Need for 802.11n -- 7.2 802.11a/b/g/n MIMO Transceiver -- 7.2.1 Architecture and Circuit Implementation -- 7.2.1.1 Receiver -- 7.2.1.2 Transmitter -- 7.2.1.3 PLL and LO Generation -- 7.2.1.4 Calibration Techniques -- 7.2.2 Packaging Issues -- 7.2.3 Measurement Results -- 7.2.4 MIMO Case Study Conclusion -- 7.3 Concluding Remarks -- References -- Annotated Bibliography -- Index -- About the Author. |
| Record Nr. | UNINA-9910144581603321 |
Behzad Arya
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||
| New York ; , : Wiley-IEEE, , 2007 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Wireless LAN radios : system definition to transistor design / / Arya Behzad
| Wireless LAN radios : system definition to transistor design / / Arya Behzad |
| Autore | Behzad Arya |
| Pubbl/distr/stampa | New York ; , : Wiley-IEEE, , 2007 |
| Descrizione fisica | 1 online resource (257 p.) |
| Disciplina |
621.384
621.3845 |
| Collana | IEEE series on digital & mobile communication |
| Soggetto topico |
Portable radios
Wireless communication systems Wireless communication systems - Equipment and supplies |
| ISBN |
1-281-22171-6
9786611221713 0-470-20930-5 0-470-20927-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface -- Acronyms -- CHAPTER 1 802.11 Flavors and System Requirements -- 1.1 Definition -- 1.2 WLAN Market Trends -- 1.3 History of 802.11 -- 1.4 802.11: b, a, or g? -- 1.5 802.11b Standard -- 1.6 802.11a Channel Allocation -- 1.7 802.11a and 802.11g: OFDM Mapping -- 1.7.1 Multipath Fading -- 1.8 802.11a/g: Data Rates -- 1.9 802.11a/g OFDM Packet Construction -- 1.10 802.11 System Requirements -- 1.10.1 Receiver Sensitivity -- 1.10.2 Transmitter Error Vector Magnitude -- 1.10.3 Transmitter Spectral Mask -- 1.11 Vector Signal Analysis -- CHAPTER 2 Radio Receiver and Transmitter Architectures -- 2.1 Architectures -- 2.1.1 Superheterodyne Receiver -- 2.1.1.1 Choice of Intermediate Frequency in Superheterodyne Receiver -- 2.1.2 Low IF Receiver -- 2.1.3 Direct-Conversion Receiver -- 2.1.4 Receiver Architectures: Summary -- 2.1.5 Superheterodyne Transmitter -- 2.1.6 Low IF Transmitter -- 2.1.7 Direct-Conversion Transmitter -- 2.1.8 Polar Modulators -- 2.2 Process Choices: CMOS versus SiGe BiCMOS -- CHAPTER 3 Analog Impairments and Issues -- 3.1 Receiver Sensitivity and Noise Figure -- 3.2 Receiver DC Offsets and LO Leakage -- 3.3 Receiver Flicker Noise -- 3.4 Receiver Interferers and Intermodulation Distortion -- 3.4.1 IP3, IP2, and P1dB -- 3.4.2 Tools for Analyzing Modulated Signal Distortion -- 3.5 Receiver Image Rejection -- 3.5.1 Superheterodyne Receiver -- 3.5.2 Low IF Architecture -- 3.5.3 Direct-Conversion Receiver -- 3.6 Quadrature Balance and Relation to Image Rejection -- 3.7 Quadrature Balance and Relation to EVM -- 3.8 Other Transmitter (Modulator) Impairments -- 3.9 Peak-to-Average Ratio and Relation to Linearity and Efficiency -- 3.10 Local Oscillator Pulling in PLL -- 3.11 Phase Noise in PLL -- 3.12 Far-Out Phase Noise -- 3.13 Effect of Phase Noise on OFDM Systems -- 3.14 Effect of Frequency Errors on OFDM -- 3.15 Summary of Analog/RF Impairments -- CHAPTER 4 Some Key Radio Building Blocks -- 4.1 Low Noise Amplifier.
4.2 Mixer and its Local Oscillator Buffers -- 4.3 Power Amplifier -- 4.4 Fully Integrated VCO -- 4.5 Multifrequency (Stacked) Mixer -- 4.6 Open-Loop Transconductance Linearization Circuit -- CHAPTER 5 Calibration Techniques -- 5.1 VCO Calibration -- 5.2 Automatic Frequency Control -- 5.3 Quadrature Error and Local Oscillator Feedthrough Calibration -- 5.4 Bias Current Calibrations (R Calibration) -- 5.5 Filter Time-Constant Calibration (RC Calibration) -- 5.6 Other Calibrations -- CHAPTER 6 Case Studies -- 6.1 Case Study 1: A CMOS 802.11a Transceiver -- 6.1.1 Architecture and Circuit Implementation -- 6.1.2 Receiver -- 6.1.3 Transmitter -- 6.1.4 Phase-Locked Loop -- 6.2 Case Study 2: High Performance WLAN Transmitter Utilizing Quadrature and LOFT Calibration -- CHAPTER 7 Brief Discussion Of 802.11n and Concluding Remarks -- 7.1 Need for 802.11n -- 7.2 802.11a/b/g/n MIMO Transceiver -- 7.2.1 Architecture and Circuit Implementation -- 7.2.1.1 Receiver -- 7.2.1.2 Transmitter -- 7.2.1.3 PLL and LO Generation -- 7.2.1.4 Calibration Techniques -- 7.2.2 Packaging Issues -- 7.2.3 Measurement Results -- 7.2.4 MIMO Case Study Conclusion -- 7.3 Concluding Remarks -- References -- Annotated Bibliography -- Index -- About the Author. |
| Record Nr. | UNINA-9910829949503321 |
|
Behzad Arya
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||
| New York ; , : Wiley-IEEE, , 2007 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Wireless local area networks quality of service : an engineering perspective / / Osama Aboul-Magd
| Wireless local area networks quality of service : an engineering perspective / / Osama Aboul-Magd |
| Autore | Aboul-Magd Osama <1956-> |
| Pubbl/distr/stampa | New York : , : IEEE Press/Standards Information Network |
| Descrizione fisica | 1 PDF (xx, 167 pages) : illustrations |
| Disciplina | 621.384 |
| Collana | IEEE standards wireless networks series. |
| Soggetto topico |
Wireless LANs
Wireless communication systems Electrical & Computer Engineering Engineering & Applied Sciences Telecommunications |
| ISBN |
1-118-12809-5
1-118-09890-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Front Matter -- Quality of Service Mechanisms and Metrics -- QoS Architectures -- IEEE Standard 802.11 Overview -- IEEE 802.11 QoS Features -- Interworking with WLAN QoS -- Concluding Remarks -- Bibliography -- Index. |
| Record Nr. | UNINA-9910140953303321 |
|
Aboul-Magd Osama <1956->
|
||
| New York : , : IEEE Press/Standards Information Network | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Wireless local area networks quality of service : an engineering perspective / / Osama Aboul-Magd
| Wireless local area networks quality of service : an engineering perspective / / Osama Aboul-Magd |
| Autore | Aboul-Magd Osama <1956-> |
| Pubbl/distr/stampa | New York : , : IEEE Press/Standards Information Network |
| Descrizione fisica | 1 PDF (xx, 167 pages) : illustrations |
| Disciplina | 621.384 |
| Collana | IEEE standards wireless networks series. |
| Soggetto topico |
Wireless LANs
Wireless communication systems Electrical & Computer Engineering Engineering & Applied Sciences Telecommunications |
| ISBN |
1-118-12809-5
1-118-09890-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Front Matter -- Quality of Service Mechanisms and Metrics -- QoS Architectures -- IEEE Standard 802.11 Overview -- IEEE 802.11 QoS Features -- Interworking with WLAN QoS -- Concluding Remarks -- Bibliography -- Index. |
| Record Nr. | UNISA-996206399503316 |
|
Aboul-Magd Osama <1956->
|
||
| New York : , : IEEE Press/Standards Information Network | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
Wireless local area networks quality of service : an engineering perspective / / Osama Aboul-Magd
| Wireless local area networks quality of service : an engineering perspective / / Osama Aboul-Magd |
| Autore | Aboul-Magd Osama <1956-> |
| Pubbl/distr/stampa | New York : , : IEEE Press/Standards Information Network |
| Descrizione fisica | 1 PDF (xx, 167 pages) : illustrations |
| Disciplina | 621.384 |
| Collana | IEEE standards wireless networks series. |
| Soggetto topico |
Wireless LANs
Wireless communication systems Electrical & Computer Engineering Engineering & Applied Sciences Telecommunications |
| ISBN |
1-118-12809-5
1-118-09890-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Front Matter -- Quality of Service Mechanisms and Metrics -- QoS Architectures -- IEEE Standard 802.11 Overview -- IEEE 802.11 QoS Features -- Interworking with WLAN QoS -- Concluding Remarks -- Bibliography -- Index. |
| Record Nr. | UNINA-9910830970403321 |
|
Aboul-Magd Osama <1956->
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||
| New York : , : IEEE Press/Standards Information Network | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Wireless local loops: theory and applications
| Wireless local loops: theory and applications |
| Autore | Stavroulakis Peter |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | [Place of publication not identified], : John Wiley & Sons Incorporated, 2001 |
| Descrizione fisica | 1 online resource (296 pages) |
| Disciplina | 621.382 |
| Altri autori (Persone) | StavroulakisPeter |
| Soggetto topico |
Mobile communication systems
Wireless communication systems |
| ISBN |
0-470-84187-7
9786610555239 1-280-55523-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | List of Contributors xi Preface xv Acknowledgement xvii Part I Theoretical aspects 1 1 Introduction to WLL: Digital Service Technologies 3 1.1 Background 3 1.2 Advantages of Wireless Systems 5 1.3 WLL Service Requirements 6 1.4 Generic WLL System Architecture 9 1.5 WLL System Technologies 14 1.6 Comparison of WLL Services 29 Appendix A Fixed versus Mobile Cellular Systems 30 Appendix B CDMA versus TDMA in WLL 31 References 33 2 Propagation Models for Wireless Local Loops 35 2.1 Introduction 35 2.2 WLL System Configuration 36 2.3 Delay Spread in WLL Environments 37 2.4 Components of Overall Path Loss 39 2.5 Path Loss Models 43 2.6 Comparison of Propagation Models 55 References 55 2 Propagation Models for Wireless Local Loops 35 2.1 Introduction 35 2.2 WLL System Configuration 36 2.3 Delay Spread in WLL Environments 37 2.4 Components of Overall Path Loss 39 2.5 Path Loss Models 43 2.6 Comparison of Propagation Models 55 References 55 3 Wireless Local Loop Networks Capacity Enhancement by Space Division Multiple Access 57 3.1 Introduction 57 3.2 Background 57 3.3 Technologies for the First Generation of Wireless Local Loop 63 3.4 Multiple Access Techniques 70 3.5 Simulation Description 75 3.6 Performance Results 76 References 77 4 Combined Trellis Coded Quantization/Modulation over a Wireless Local Loop Environment 81 4.1 Introduction 81 4.2 Fundamentals of Trellis Coded Modulation 81 4.3 General Aspects of Combined Trellis Coded Quantization Modulation Schemes 83 4.4 Basic Model 88 4.5 An Example: 4-State 8-Psk Combined Trellis Coded Quantization/Modulation 95 References 99 5 Low Sequency W-CDMA Codes Lead to More Economic WLL and Infostation Terminals 101 5.1 Introduction 101 5.2 Code Selection and Generation 104 5.3 Infostation Transmitter 106 5.4 Terminal Receiver 107 5.5 Simplified Signal Processing for a Low Data Terminal 108 5.6 Noise Analysis and Processing Gain 110 References 112 6 Wide-band Wireless Outdoor to Indoor Local Loop Channel Models for Urban and Suburban Environments at 2 GHz 115 6.1 Introduction 115 6.2 Experimental Procedure 116 6.3 Data Processing 120 6.4 Channel Parameters 123 6.5 Channel Model 131 References 139 7 Traffic Considerations in Comparing Access Techniques for WLL 141 7.1 Introduction 141 7.2 Fixed Wireless Access Networks 142 7.3 Multiple Access Technologies 144 7.4 CDMA Capacity Analysis 1467.5 Comparison of TDMA and CDMA Results 159 List of Abbreviations 161 References 161 8 Traffic Based Dynamic Channel Allocation Schemes for WLL 163 8.1 Introduction 163 8.2 Access on Allocation Technologies 163 8.3 FWA Network Scenarios 168 8.4 Simulations Results of DCA in FWA Networks 178 List of Abbreviations 189 References 190 9 WLL as an Interferer 191 9.1 Introduction 191 9.2 System Overview of WLL as an Interferer 194 9.3 Architecture of WLL as an Interferer 201 9.4 Problem Definition 201 9.5 Description of the Systems 202 9.6 Spectral Characteristics of Signals 210 9.7 Interference Effects Analysis 214 9.8 Study Case 217 References 228 Part II Applications 231 10 Development of a Prototype of the Broadband Radio Access Integrated Network 233 10.1 Introduction 233 10.2 System Overview 234 10.3 MAC Protocol: RS-ISMA 236 10.4 BRAIN Indoor LAN Prototype 240 References 245 11 PBX based Mobility Manager for WLL 247 11.1 Introduction 247 11.2 A Computer-controlled PBX Architecture 247 11.3 Mobility Management for PBX 248 11.4 Registration Procedures 252 11.5 Call Termination 255 11.6 Performance Issues 258 References 260 12 Remote Management and Upgrade in a Wireless Local Loop System 261 12.1 Introduction 261 12.2 Wireless Local Loop Application Overview 262 12.3 Remote Upgrade of Fixed Subscriber Units 263 12.4 Event Logging for Remote Management 266 References 270 13 Current and Future Services Using Wireless Local Loop (WLL) Systems 271 13.1 Introduction 271 13.2 WLL System Architecture 272 13.3 WLL Service Requirements 274 13.4 Services with Currently Available Systems 276 13.5 Further Considerations for Multimedia Services 280 References 281 Index. |
| Record Nr. | UNINA-9910142641303321 |
|
Stavroulakis Peter
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| [Place of publication not identified], : John Wiley & Sons Incorporated, 2001 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Wireless localization techniques / / Xiaohua Tian, Xinyu Tong, Xinbing Wang
| Wireless localization techniques / / Xiaohua Tian, Xinyu Tong, Xinbing Wang |
| Autore | Tian Xiaohua |
| Edizione | [1st ed. 2023.] |
| Pubbl/distr/stampa | Cham, Switzerland : , : Springer, , [2023] |
| Descrizione fisica | 1 online resource (377 pages) |
| Disciplina | 002 |
| Collana | Wireless Networks |
| Soggetto topico | Wireless communication systems |
| ISBN | 3-031-21178-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Introduction -- Part I Why and What? -- Wireless Localization -- Background and Literature Review -- Part II Theories -- Theoretical Model for RSS Localization -- Theoretical Model for CSI Localization -- Part III Approaches -- RSS Localization for Large-scale Deployment -- CSI Localization for Large-scale Deployment -- Part IV Conclusions -- Research Summary -- Future Work -- Conclusion. |
| Record Nr. | UNINA-9910644264203321 |
|
Tian Xiaohua
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||
| Cham, Switzerland : , : Springer, , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Wireless mesh networks / / Ian F. Akyildiz, Xudong Wang
| Wireless mesh networks / / Ian F. Akyildiz, Xudong Wang |
| Autore | Akyildiz Ian Fuat |
| Pubbl/distr/stampa | Chichester, U.K. : , : Wiley, , 2009 |
| Descrizione fisica | 1 online resource (326 p.) |
| Disciplina | 621.384 |
| Altri autori (Persone) | WangX (Xudong) |
| Collana | Advanced texts in communications and networking |
| Soggetto topico |
Wireless communication systems
Mobile communication systems |
| ISBN |
1-282-34616-4
9786612346163 0-470-05961-3 0-470-05960-5 |
| Classificazione | ST 200 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Contents -- Preface -- 1 Introduction -- 1.1 Network Architecture -- 1.2 Characteristics -- 1.3 Application Scenarios -- 1.4 Critical Design Factors -- 2 Physical Layer -- 2.1 Adaptive Coding/Modulation and Link Adaptation -- 2.2 Directional Antennas and Multi-Antenna Systems -- 2.2.1 Directional Antenna -- 2.2.2 Antenna Diversity and Smart Antenna -- 2.3 Cooperative Diversity and Cooperative Communications -- 2.4 Multi-Channel Systems -- 2.5 Advanced Radio Technologies -- 2.5.1 Frequency Agile Radios and Cognitive Radios -- 2.5.2 Reconfigurable Radios and Software Radios -- 2.6 Integrating Different Advanced Techniques: IEEE 802.11n -- 2.6.1 The Protocol Reference Model of the Physical Layer -- 2.6.2 PLCP Sublayer -- 2.6.3 PMD Sublayer -- 2.6.4 PLME Sublayer -- 2.7 Open Research Issues -- 3 Medium Access Control Layer -- 3.1 Single Channel MAC Protocols -- 3.1.1 CSMA/CA Improvements -- 3.1.2 IEEE 802.11e -- 3.1.3 WMN MAC Based on IEEE 802.11s -- 3.1.4 TDMA over CSMA/CA -- 3.1.5 IEEE 802.16 MAC in Mesh Mode -- 3.1.6 MAC for UWB WMNs -- 3.1.7 CDMA MAC -- 3.2 Multi-Channel MAC Protocols -- 3.2.1 Single-Radio MAC Protocol -- 3.2.2 Slotted Seeded Channel Hopping (SSCH) MAC -- 3.2.3 Multi-Radio MAC Protocol -- 3.2.4 Multi-Radio 2-Phase Protocol -- 3.2.5 Channel Assignment in the MAC Layer -- 3.2.6 Dynamic Frequency Selection (DFS) Requirements -- 3.3 Open Research Issues -- 4 Network Layer -- 4.1 Routing Challenges -- 4.2 Design Principles -- 4.3 Topology Discovery for Routing -- 4.4 Performance Parameters -- 4.5 Routing Metrics -- 4.5.1 Hop-Count -- 4.5.2 Per-Hop RTT -- 4.5.3 Per-Hop Packet Pair Delay -- 4.5.4 Expected Transmission Count (ETX) -- 4.5.5 Expected Transmission on a Path (ETOP) -- 4.5.6 Expected Transmission Time (ETT) and Weighted Cumulative ETT -- (WCETT) -- 4.5.7 Effective Number of Transmissions (ENT) -- 4.5.8 Metric of Interference and Channel-Switching (MIC) -- 4.5.9 Bottleneck Link Capacity (BLC) -- 4.5.10 Expected Data Rate (EDR) -- 4.5.11 Low Overhead Routing Metric.
4.5.12 Airtime Cost Routing Metric -- 4.5.13 Remaining Issues -- 4.6 Categories of Routing Protocols -- 4.6.1 Hop-count based routing -- 4.6.2 Link-level QoS routing -- 4.6.3 End-to-end QoS routing -- 4.6.4 Reliability-aware routing -- 4.6.5 Stability-aware routing -- 4.6.6 Power-efficient routing -- 4.6.7 Scalable routing -- 4.7 Hop-Count Based Routing Protocols -- 4.7.1 Light client management routing (LCMR) protocol -- 4.7.2 Orthogonal rendezvous routing (ORR) protocol -- 4.7.3 HEAT Protocol -- 4.8 Link-Level QoS Based Routing Protocols -- 4.8.1 Link Quality Source Routing (LQSR) Protocol -- 4.8.2 Multi-radio LQSR (MR-LQSR) Routing Protocol -- 4.8.3 ExOR Routing Protocol -- 4.8.4 AODV-spanning tree (AODV-ST) protocol -- 4.9 Interference Based Routing: IRMA -- 4.10 Routing with Load Balancing -- 4.11 Routing Based on Residual Link Capacity -- 4.12 End-to-End QoS Routing -- 4.12.1 Quality aware routing protocol -- 4.12.2 RingMesh Routing Protocol -- 4.12.3 Bandwidth reservation routing protocol -- 4.13 Reliability Based Routing: Multi-Path Routing -- 4.13.1 Resilient OpportunisticMesh Routing(ROMER) protocol -- 4.13.2 Simple Two-Path Routing Protocol -- 4.13.3 Multi-Path Mesh (MMESH) Routing protocol -- 4.14 Stability Based Routing -- 4.15 Scalable Routing -- 4.15.1 Hierarchical Routing -- 4.15.2 Geographic Routing -- 4.16 Multi-Channel Routing Protocols -- 4.16.1 Joint Channel Assignment and Routing -- 4.16.2 Distributed Joint Channel and Routing Protocol -- 4.17 Open Research Issues -- 5 Transport Layer -- 5.1 Challenges of a Transport Layer Protocol in Wireless Environments -- 5.2 Transport Layer Protocols for Multihop Ad Hoc Networks -- 5.2.1 Protocols for Reliable Data Transport -- 5.2.2 Protocols for Real-Time Delivery -- 5.3 Transport Layer Protocols for WMNs -- 5.3.1 Transport Protocols Based on Hop-by-Hop Control -- 5.3.2 DCCP for WMNs -- 5.4 Open Research Issues -- 6 Network Security -- 6.1 Security Attacks in WMNs -- 6.2 Counter-Attack Measures -- 6.3 Security Schemes in Related Wireless Networks. 6.3.1 Security of IEEE 802.11Wireless LANs -- 6.3.2 Security of IEEE 802.16Wireless MANs -- 6.3.3 Security of Mobile Ad Hoc Networks -- 6.4 Security Mechanisms forWMNs -- 6.4.1 Features and Challenges of A SecureWMN -- 6.4.2 Security of IEEE 802.11sWMN -- 6.4.3 Future Directions -- 6.5 Multi-Layer Design for WMN Security -- 6.5.1 Research Issues in the Multi-Layer Security -- 7 Network Control and Management -- 7.1 Mobility Management -- 7.1.1 Mobility Management in Related Wireless Networks -- 7.1.2 Mobility Management in WMNs -- 7.1.3 Open Research Issues -- 7.2 Power Management -- 7.2.1 Power Management in Related Wireless Networks -- 7.2.2 Power Management in WMNs -- 7.2.3 Open Research Issues -- 7.3 Topology Control and Management -- 7.3.1 Topology Control and Management in Related Wireless Networks -- 7.3.2 Topology Control and Management in WMNs -- 7.4 Timing Synchronization -- 7.5 Traditional Network Management Functions -- 8 Network Capacity -- 8.1 Capacity Analysis -- 8.1.1 Notations and Terms -- 8.1.2 Capacity of Ad Hoc Networks without Mobility -- 8.1.3 Capacity of Mobile Ad Hoc Networks -- 8.1.4 Capacity of Ad Hoc Networks with Infrastructure Support -- 8.2 Capacity and Delay Tradeoff -- 8.2.1 The need of capacity-delay tradeoff -- 8.2.2 Analytical Models and Definitions -- 8.2.3 Definitions of Throughput-Delay Optimality -- 8.2.4 Throughput-Delay Tradeoff in Static Networks -- 8.2.5 Throughput-Delay Tradeoff in Mobile Networks -- 8.2.6 Open Research Issues -- 8.3 Applicability of Asymptotic Capacity Analysis to WMNs -- 9 Cross-Layer Design -- 9.1 Motivations of Cross-Layer Design -- 9.1.1 Layered Design versus Cross-Layer Design -- 9.1.2 Cross-Layer Design in WMNs -- 9.2 Cross-Layer Design Protocols and Optimization Algorithms -- 9.2.1 General Methodology of Cross-Layer Design -- 9.2.2 MAC/Physical Cross-Layer Design -- 9.2.3 Routing/MAC Cross-Layer Design -- 9.2.4 Transport/Physical Cross-Layer Design -- 9.2.5 Joint Optimization Algorithms Across Multiple Protocol Layers. 9.3 Prudent Use of Cross-Layer Design -- 10 Standards on Wireless Mesh Networks -- 10.1 Overview of IEEE 802Working Groups forWireless Networks -- 10.2 Overview of Industry Alliance/Forum for DifferentWireless Technologies -- 10.3 Standards for MeshedWireless LANs -- 10.3.1 Overview of IEEE 802.11 Standard Activities -- 10.3.2 IEEE 802.11s -- 10.4 Standards for MeshedWireless PANs -- 10.4.1 Overview of IEEE 802.15 Standard Activities -- 10.4.2 IEEE 802.15.5 -- 10.4.3 UWB-Based MeshedWireless PANs -- 10.4.4 Remaining Issues in Standards for Meshed Wireless PANs -- 10.5 Standards for MeshedWireless MANs -- 10.5.1 Overview of IEEE 802.16 Standard Activities -- 10.5.2 IEEE 802.16 Mesh Mode -- 10.5.3 IEEE 802.16j -- Bibliography. |
| Record Nr. | UNINA-9910146401203321 |
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Akyildiz Ian Fuat
|
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| Chichester, U.K. : , : Wiley, , 2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Wireless mesh networks / / Ian F. Akyildiz, Xudong Wang
| Wireless mesh networks / / Ian F. Akyildiz, Xudong Wang |
| Autore | Akyildiz Ian Fuat |
| Pubbl/distr/stampa | Chichester, U.K. : , : Wiley, , 2009 |
| Descrizione fisica | 1 online resource (326 p.) |
| Disciplina | 621.384 |
| Altri autori (Persone) | WangX (Xudong) |
| Collana | Advanced texts in communications and networking |
| Soggetto topico |
Wireless communication systems
Mobile communication systems |
| ISBN |
1-282-34616-4
9786612346163 0-470-05961-3 0-470-05960-5 |
| Classificazione | ST 200 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Contents -- Preface -- 1 Introduction -- 1.1 Network Architecture -- 1.2 Characteristics -- 1.3 Application Scenarios -- 1.4 Critical Design Factors -- 2 Physical Layer -- 2.1 Adaptive Coding/Modulation and Link Adaptation -- 2.2 Directional Antennas and Multi-Antenna Systems -- 2.2.1 Directional Antenna -- 2.2.2 Antenna Diversity and Smart Antenna -- 2.3 Cooperative Diversity and Cooperative Communications -- 2.4 Multi-Channel Systems -- 2.5 Advanced Radio Technologies -- 2.5.1 Frequency Agile Radios and Cognitive Radios -- 2.5.2 Reconfigurable Radios and Software Radios -- 2.6 Integrating Different Advanced Techniques: IEEE 802.11n -- 2.6.1 The Protocol Reference Model of the Physical Layer -- 2.6.2 PLCP Sublayer -- 2.6.3 PMD Sublayer -- 2.6.4 PLME Sublayer -- 2.7 Open Research Issues -- 3 Medium Access Control Layer -- 3.1 Single Channel MAC Protocols -- 3.1.1 CSMA/CA Improvements -- 3.1.2 IEEE 802.11e -- 3.1.3 WMN MAC Based on IEEE 802.11s -- 3.1.4 TDMA over CSMA/CA -- 3.1.5 IEEE 802.16 MAC in Mesh Mode -- 3.1.6 MAC for UWB WMNs -- 3.1.7 CDMA MAC -- 3.2 Multi-Channel MAC Protocols -- 3.2.1 Single-Radio MAC Protocol -- 3.2.2 Slotted Seeded Channel Hopping (SSCH) MAC -- 3.2.3 Multi-Radio MAC Protocol -- 3.2.4 Multi-Radio 2-Phase Protocol -- 3.2.5 Channel Assignment in the MAC Layer -- 3.2.6 Dynamic Frequency Selection (DFS) Requirements -- 3.3 Open Research Issues -- 4 Network Layer -- 4.1 Routing Challenges -- 4.2 Design Principles -- 4.3 Topology Discovery for Routing -- 4.4 Performance Parameters -- 4.5 Routing Metrics -- 4.5.1 Hop-Count -- 4.5.2 Per-Hop RTT -- 4.5.3 Per-Hop Packet Pair Delay -- 4.5.4 Expected Transmission Count (ETX) -- 4.5.5 Expected Transmission on a Path (ETOP) -- 4.5.6 Expected Transmission Time (ETT) and Weighted Cumulative ETT -- (WCETT) -- 4.5.7 Effective Number of Transmissions (ENT) -- 4.5.8 Metric of Interference and Channel-Switching (MIC) -- 4.5.9 Bottleneck Link Capacity (BLC) -- 4.5.10 Expected Data Rate (EDR) -- 4.5.11 Low Overhead Routing Metric.
4.5.12 Airtime Cost Routing Metric -- 4.5.13 Remaining Issues -- 4.6 Categories of Routing Protocols -- 4.6.1 Hop-count based routing -- 4.6.2 Link-level QoS routing -- 4.6.3 End-to-end QoS routing -- 4.6.4 Reliability-aware routing -- 4.6.5 Stability-aware routing -- 4.6.6 Power-efficient routing -- 4.6.7 Scalable routing -- 4.7 Hop-Count Based Routing Protocols -- 4.7.1 Light client management routing (LCMR) protocol -- 4.7.2 Orthogonal rendezvous routing (ORR) protocol -- 4.7.3 HEAT Protocol -- 4.8 Link-Level QoS Based Routing Protocols -- 4.8.1 Link Quality Source Routing (LQSR) Protocol -- 4.8.2 Multi-radio LQSR (MR-LQSR) Routing Protocol -- 4.8.3 ExOR Routing Protocol -- 4.8.4 AODV-spanning tree (AODV-ST) protocol -- 4.9 Interference Based Routing: IRMA -- 4.10 Routing with Load Balancing -- 4.11 Routing Based on Residual Link Capacity -- 4.12 End-to-End QoS Routing -- 4.12.1 Quality aware routing protocol -- 4.12.2 RingMesh Routing Protocol -- 4.12.3 Bandwidth reservation routing protocol -- 4.13 Reliability Based Routing: Multi-Path Routing -- 4.13.1 Resilient OpportunisticMesh Routing(ROMER) protocol -- 4.13.2 Simple Two-Path Routing Protocol -- 4.13.3 Multi-Path Mesh (MMESH) Routing protocol -- 4.14 Stability Based Routing -- 4.15 Scalable Routing -- 4.15.1 Hierarchical Routing -- 4.15.2 Geographic Routing -- 4.16 Multi-Channel Routing Protocols -- 4.16.1 Joint Channel Assignment and Routing -- 4.16.2 Distributed Joint Channel and Routing Protocol -- 4.17 Open Research Issues -- 5 Transport Layer -- 5.1 Challenges of a Transport Layer Protocol in Wireless Environments -- 5.2 Transport Layer Protocols for Multihop Ad Hoc Networks -- 5.2.1 Protocols for Reliable Data Transport -- 5.2.2 Protocols for Real-Time Delivery -- 5.3 Transport Layer Protocols for WMNs -- 5.3.1 Transport Protocols Based on Hop-by-Hop Control -- 5.3.2 DCCP for WMNs -- 5.4 Open Research Issues -- 6 Network Security -- 6.1 Security Attacks in WMNs -- 6.2 Counter-Attack Measures -- 6.3 Security Schemes in Related Wireless Networks. 6.3.1 Security of IEEE 802.11Wireless LANs -- 6.3.2 Security of IEEE 802.16Wireless MANs -- 6.3.3 Security of Mobile Ad Hoc Networks -- 6.4 Security Mechanisms forWMNs -- 6.4.1 Features and Challenges of A SecureWMN -- 6.4.2 Security of IEEE 802.11sWMN -- 6.4.3 Future Directions -- 6.5 Multi-Layer Design for WMN Security -- 6.5.1 Research Issues in the Multi-Layer Security -- 7 Network Control and Management -- 7.1 Mobility Management -- 7.1.1 Mobility Management in Related Wireless Networks -- 7.1.2 Mobility Management in WMNs -- 7.1.3 Open Research Issues -- 7.2 Power Management -- 7.2.1 Power Management in Related Wireless Networks -- 7.2.2 Power Management in WMNs -- 7.2.3 Open Research Issues -- 7.3 Topology Control and Management -- 7.3.1 Topology Control and Management in Related Wireless Networks -- 7.3.2 Topology Control and Management in WMNs -- 7.4 Timing Synchronization -- 7.5 Traditional Network Management Functions -- 8 Network Capacity -- 8.1 Capacity Analysis -- 8.1.1 Notations and Terms -- 8.1.2 Capacity of Ad Hoc Networks without Mobility -- 8.1.3 Capacity of Mobile Ad Hoc Networks -- 8.1.4 Capacity of Ad Hoc Networks with Infrastructure Support -- 8.2 Capacity and Delay Tradeoff -- 8.2.1 The need of capacity-delay tradeoff -- 8.2.2 Analytical Models and Definitions -- 8.2.3 Definitions of Throughput-Delay Optimality -- 8.2.4 Throughput-Delay Tradeoff in Static Networks -- 8.2.5 Throughput-Delay Tradeoff in Mobile Networks -- 8.2.6 Open Research Issues -- 8.3 Applicability of Asymptotic Capacity Analysis to WMNs -- 9 Cross-Layer Design -- 9.1 Motivations of Cross-Layer Design -- 9.1.1 Layered Design versus Cross-Layer Design -- 9.1.2 Cross-Layer Design in WMNs -- 9.2 Cross-Layer Design Protocols and Optimization Algorithms -- 9.2.1 General Methodology of Cross-Layer Design -- 9.2.2 MAC/Physical Cross-Layer Design -- 9.2.3 Routing/MAC Cross-Layer Design -- 9.2.4 Transport/Physical Cross-Layer Design -- 9.2.5 Joint Optimization Algorithms Across Multiple Protocol Layers. 9.3 Prudent Use of Cross-Layer Design -- 10 Standards on Wireless Mesh Networks -- 10.1 Overview of IEEE 802Working Groups forWireless Networks -- 10.2 Overview of Industry Alliance/Forum for DifferentWireless Technologies -- 10.3 Standards for MeshedWireless LANs -- 10.3.1 Overview of IEEE 802.11 Standard Activities -- 10.3.2 IEEE 802.11s -- 10.4 Standards for MeshedWireless PANs -- 10.4.1 Overview of IEEE 802.15 Standard Activities -- 10.4.2 IEEE 802.15.5 -- 10.4.3 UWB-Based MeshedWireless PANs -- 10.4.4 Remaining Issues in Standards for Meshed Wireless PANs -- 10.5 Standards for MeshedWireless MANs -- 10.5.1 Overview of IEEE 802.16 Standard Activities -- 10.5.2 IEEE 802.16 Mesh Mode -- 10.5.3 IEEE 802.16j -- Bibliography. |
| Record Nr. | UNINA-9910822434803321 |
|
Akyildiz Ian Fuat
|
||
| Chichester, U.K. : , : Wiley, , 2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
