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MARC Lista (tabellare)
IP-based next-generation wireless networks [[electronic resource] ] : systems, architectures, and protocols / / Jyh-Cheng Chen and Tao Zhang
IP-based next-generation wireless networks [[electronic resource] ] : systems, architectures, and protocols / / Jyh-Cheng Chen and Tao Zhang
Autore Chen Jyh-Cheng <1967->
Pubbl/distr/stampa New York, : Wiley-Interscience, c2004
Descrizione fisica 1 online resource (439 p.)
Disciplina 004.6/8
Altri autori (Persone) ZhangTao <1962->
Soggetto topico Wireless LANs
ISBN 1-280-34488-1
9786610344888
0-470-30659-9
0-471-47826-1
0-471-47825-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto IP-Based Next-Generation Wireless Networks; Contents; Foreword; Preface; Acronyms; 1 Introduction; 1.1 Evolution of Wireless Networks; 1.1.1 Wireless Local Area Networks; 1.1.2 Public Wide-Area Wireless Networks; 1.2 Evolution of Public Mobile Services; 1.2.1 First Wave of Mobile Data Services: Text-Based Instant Messaging; 1.2.2 Second Wave of Mobile Data Services: Low-Speed Mobile Internet Services; 1.2.3 Current Wave of Mobile Data Services: High-Speed and Multimedia Mobile Internet Services; 1.3 Motivations for IP-Based Wireless Networks; 1.4 3GPP, 3GPP2, and IETF; 1.4.1 3GPP; 1.4.2 3GPP2
1.4.3 IETF1.5 Organization of the Book; References; 2 Wireless IP Network Architectures; 2.1 3GPP Packet Data Networks; 2.1.1 Network Architecture; 2.1.2 Protocol Reference Model; 2.1.3 Packet Data Protocols, Bearers, and Connections for Packet Services; 2.1.4 Packet Data Protocol (PDP) Context; 2.1.5 Steps for a Mobile to Access 3GPP Packet-Switched Services; 2.1.6 User Packet Routing and Transport; 2.1.7 Configuring PDP Addresses on Mobile Stations; 2.1.8 GPRS Attach Procedure; 2.1.9 PDP Context Activation and Modification; 2.1.10 Radio Access Bearer Assignment
2.1.11 Packet-Switched Domain Protocol Stacks2.1.12 Accessing IP Networks through PS Domain; 2.2 3GPP2 Packet Data Networks; 2.2.1 3GPP2 Network Architecture; 2.2.2 3GPP2 Packet Data Network Architecture; 2.2.3 Protocol Reference Model; 2.2.4 Access to 3GPP2 Packet Data Network; 2.2.5 User Packet Routing and Transport; 2.2.6 Protocol Stacks for Packet Data Services; 2.3 MWIF All-IP Mobile Networks; 2.3.1 Network Architectures; 2.3.2 Access to MWIF Networks; 2.3.3 Session Management; References; 3 IP Multimedia Subsystems and Application-Level Signaling; 3.1 Signaling in IP Networks
3.1.1 Session Initiation Protocol (SIP)3.1.2 Session Description Protocol (SDP); 3.2 3GPP IP Multimedia Subsystem (IMS); 3.2.1 IMS Architecture; 3.2.2 Mobile Station Addressing for Accessing the IMS; 3.2.3 Reference Interfaces; 3.2.4 Service Architecture; 3.2.5 Registration with the IMS; 3.2.6 Deregistration with the IMS; 3.2.7 End-to-End Signaling Flows for Session Control; 3.3 3GPP2 IP Multimedia Subsystem (IMS); References; 4 Mobility Management; 4.1 Basic Issues in Mobility Management; 4.1.1 Impact of Naming and Addressing on Mobility Management; 4.1.2 Location Management
4.1.3 Packet Delivery to Mobile Destinations4.1.4 Handoffs; 4.1.5 Roaming; 4.2 Mobility Management in IP Networks; 4.2.1 Naming and Addressing of IP Terminals; 4.2.2 Mobile IPv4; 4.2.3 MIPv4 Regional Registration; 4.2.4 Paging Extensions to Mobile IPv4; 4.2.5 Mobile IPv6; 4.2.6 SIP-Based Mobility Management; 4.2.7 Cellular IP; 4.2.8 HAWAII; 4.3 Mobility Management in 3GPP Packet Networks; 4.3.1 Packet Mobility Management (PMM) Context and States; 4.3.2 Location Management for Packet-Switched Services; 4.3.3 Routing Area Update; 4.3.4 Serving RNS Relocation; 4.3.5 Hard Handoffs
4.3.6 Paging Initiated by Packet-Switched Core Network
Record Nr. UNINA-9910808766603321
Chen Jyh-Cheng <1967->  
New York, : Wiley-Interscience, c2004
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
ISO/IEC/IEEE 8802-11:2012(E) (Revision of ISO/IEC/IEEE 8802-11-2005 and Amendments) - Redline / / IEEE
ISO/IEC/IEEE 8802-11:2012(E) (Revision of ISO/IEC/IEEE 8802-11-2005 and Amendments) - Redline / / IEEE
Pubbl/distr/stampa [Place of publication not identified] : , : IEEE, , 2013
Descrizione fisica 1 online resource
Disciplina 652.8
Soggetto topico Ciphers
Cryptography
Wireless LANs
ISBN 0-7381-8322-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910135263003321
[Place of publication not identified] : , : IEEE, , 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
ISO/IEC/IEEE 8802-11:2012(E) (Revision of ISO/IEC/IEEE 8802-11-2005 and Amendments) - Redline / / IEEE
ISO/IEC/IEEE 8802-11:2012(E) (Revision of ISO/IEC/IEEE 8802-11-2005 and Amendments) - Redline / / IEEE
Pubbl/distr/stampa [Place of publication not identified] : , : IEEE, , 2013
Descrizione fisica 1 online resource
Disciplina 652.8
Soggetto topico Ciphers
Cryptography
Wireless LANs
ISBN 0-7381-8322-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-996280988903316
[Place of publication not identified] : , : IEEE, , 2013
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
ISSNIP : 2014 IEEE ninth International Conference on Intelligent Sensors, Sensor Networks and Information Processing : 21-24 April 2014, Singapore / / Institute of Electrical and Electronics Engineers
ISSNIP : 2014 IEEE ninth International Conference on Intelligent Sensors, Sensor Networks and Information Processing : 21-24 April 2014, Singapore / / Institute of Electrical and Electronics Engineers
Pubbl/distr/stampa Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 2014
Descrizione fisica 1 online resource (441 pages)
Disciplina 004.68
Soggetto topico Wireless LANs
Sensor networks
ISBN 1-4799-2843-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-996280815503316
Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 2014
Materiale a stampa
Lo trovi qui: Univ. di Salerno
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ISSNIP : 2014 IEEE ninth International Conference on Intelligent Sensors, Sensor Networks and Information Processing : 21-24 April 2014, Singapore / / Institute of Electrical and Electronics Engineers
ISSNIP : 2014 IEEE ninth International Conference on Intelligent Sensors, Sensor Networks and Information Processing : 21-24 April 2014, Singapore / / Institute of Electrical and Electronics Engineers
Pubbl/distr/stampa Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 2014
Descrizione fisica 1 online resource (441 pages)
Disciplina 004.68
Soggetto topico Wireless LANs
Sensor networks
ISBN 1-4799-2843-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910140396003321
Piscataway, New Jersey : , : Institute of Electrical and Electronics Engineers, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
LTE, WIMAX, and WLAN network design, optimization and performance analysis / / Leonhard Korowajczuk
LTE, WIMAX, and WLAN network design, optimization and performance analysis / / Leonhard Korowajczuk
Autore Korowajczuk Leonhard
Edizione [1st edition]
Pubbl/distr/stampa Chichester, West Sussex, U.K. : , : Wiley, , 2011
Descrizione fisica 1 online resource (784 p.)
Disciplina 004.6
621.382
Soggetto topico Wireless LANs
IEEE 802.16 (Standard)
Long-Term Evolution (Telecommunications)
ISBN 1-283-20440-1
9786613204400
1-119-97046-6
1-119-97047-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto List of Figures xix -- List of Tables xxxv -- About the Author xli -- Preface xliii -- Acknowledgements xlv -- List of Abbreviations xlvii -- Introduction 1 -- 1 The Business Plan 5 -- 1.1 Introduction 5 -- 1.2 Market Plan 5 -- 1.3 The Engineering Plan 7 -- 1.4 The Financial Plan 8 -- 1.5 Business Case Questionnaire 11 -- 1.6 Implementing the Business Plan 12 -- 2 Data Transmission 15 -- 2.1 History of the Internet 15 -- 2.2 Network Modeling 16 -- 2.3 Internet Network Architecture 19 -- 2.4 The Physical Layer 20 -- 2.5 The Data Link Layer 22 -- 2.6 Network Layer 24 -- 2.7 Transport Protocols 28 -- 2.8 Routing Protocols 29 -- 2.9 Application Protocols 31 -- 2.10 The World Wide Web (WWW) 35 -- 3 Market Modeling 37 -- 3.1 Introduction 37 -- 3.2 Data Traffic Characterization 38 -- 3.3 Service Plan (SP) and Service Level Agreement (SLA) 41 -- 3.4 User Service Classes 43 -- 3.5 Applications 44 -- 3.6 Over-Subscription Ratio (OSR) 50 -- 3.7 Services Summary 51 -- 3.8 RF Environment 51 -- 3.9 Terminals 52 -- 3.10 Antenna Height 58 -- 3.11 Geographic User Distribution 58 -- 3.12 Network Traffic Modeling 63 -- 3.13 KPI (Key Performance Indicator) Establishment 72 -- 3.14 Wireless Infrastructure 74 -- 4 Signal Processing Fundamentals 77 -- 4.1 Digitizing Analog Signals 77 -- 4.2 Digital Data Representation in the Frequency Domain (Spectrum) 80 -- 4.3 Orthogonal Signals 84 -- 4.4 Combining Shifted Copies of a Sine Wave 86 -- 4.5 Carrier Modulation 87 -- 5 RF Channel Analysis 95 -- 5.1 The Signal 95 -- 5.2 The RF Channel 101 -- 5.3 RF Signal Propagation 102 -- 5.4 RF Channel in the Frequency Domain 107 -- 5.5 RF Channel in Time Domain 115 -- 5.6 RF Channel in the Power Domain 120 -- 5.7 Standardized Channel Models 123 -- 5.8 RF Environment 126 -- 5.9 Fading 128 -- 6 RF Channel Performance Prediction 139 -- 6.1 Advanced RF Propagation Models 139 -- 6.2 RF Measurements and Propagation Model Calibration 163 -- 6.3 RF Interference Issues 172 -- 6.4 Interference Mitigation Techniques 180.
6.5 RF Spectrum Usage and Resource Planning 181 -- 6.6 Availability 187 -- 7 OFDM 193 -- 7.1 Multiplexing 193 -- 7.2 Other PAPR Reduction Methods 201 -- 7.3 De-Multiplexing 201 -- 7.4 Cyclic Prefix 202 -- 7.5 OFDMA 203 -- 7.6 Duplexing 204 -- 7.7 Synchronization 207 -- 7.8 RF Channel Information Detection 208 -- 7.9 Error Correction Techniques 211 -- 7.10 Resource Allocation and Scheduling 215 -- 7.11 Establishing Wireless Data Communications 216 -- 8 OFDM Implementation 221 -- 8.1 Transmit Side 221 -- 8.2 Receive Side 228 -- 9 Wireless Communications Network (WCN) 235 -- 9.1 Introduction 235 -- 9.2 Wireless Access Network 235 -- 9.3 Core Network 237 -- 10 Antenna and Advanced Antenna Systems 245 -- 10.1 Introduction 245 -- 10.2 Antenna Basics 246 -- 10.3 Antenna Radiation 247 -- 10.4 Antenna Types 249 -- 10.5 Antenna Characteristics 254 -- 10.6 Multiple Antennas Arrangements 262 -- 10.7 Receive Diversity 267 -- 10.8 Transmit Diversity 271 -- 10.9 Transmit and Receive Diversity (TRD) 275 -- 10.10 Spatial Multiplexing (Matrix B) 276 -- 10.11 Diversity Performance 278 -- 10.12 Antenna Array System (AAS), Advanced Antenna System (AAS) or Adaptive Antenna Steering (AAS) or Beamforming 282 -- 11 Radio Performance 287 -- 11.1 Introduction 287 -- 11.2 Input RF Noise 288 -- 11.3 Receive Circuit Noise 288 -- 11.4 Signal to Noise Ratio 288 -- 11.5 Radio Sensitivity Calculations 295 -- 11.6 Radio Configuration 307 -- 12 Wireless LAN 311 -- 12.1 Standardization 311 -- 12.2 Architecture 315 -- 12.3 The IEEE Std 802.11-2007 316 -- 12.4 Enhancements for Higher Throughputs, Amendment 5: 802.11n-2009 328 -- 12.5 Work in Progress 333 -- 12.6 Throughput 334 -- 13 WiMAX 341 -- 13.1 Standardization 341 -- 13.2 Network Architecture 344 -- 13.3 Physical Layer (PHY) 353 -- 13.4 Multiple Access OFDMA 369 -- 13.5 WiMAX Network Layers 370 -- 13.6 WiMAX Operation Phases 384 -- 13.7 WiMAX Interference Reduction Techniques 386 -- 13.8 WiMAX Resource Planning 401 -- 14 Universal Mobile Telecommunication System / Long Term Evolution (UMTS-LTE) 409.
14.1 Introduction 409 -- 14.2 Standardization 412 -- 14.3 Frequency Bands 415 -- 14.4 Architecture 417 -- 14.5 Wireless Message Flow and Protocol Stack 424 -- 14.6 Wireline Message Flow and Protocol Stacks 433 -- 14.7 Identifiers 434 -- 14.8 HARQ Procedure 435 -- 14.9 Scrambling Sequences 439 -- 14.10 Physical Layer (PHY) 439 -- 14.11 PHY Structure 444 -- 14.12 PHY TDD 457 -- 14.13 Multimedia Broadcast/Multicast Service (MBMS) 457 -- 14.14 Call Placement Scenario 461 -- 14.15 PHY Characteristics and Performance 463 -- 14.16 Multiple Antennas in LTE 466 -- 14.17 Resource Planning in LTE 472 -- 14.18 Self-Organizing Network (SON) 473 -- 14.19 RAT (Radio Access Technology) Internetworking 475 -- 14.20 LTE Radio Propagation Channel Considerations 475 -- 14.21 Handover Procedures in LTE 481 -- 14.22 Measurements 482 -- 14.23 LTE Practical System Capacity 483 -- 14.24 Synchronization 486 -- 14.25 Beyond 4G 486 -- 15 Broadband Standards Comparison 489 -- 15.1 Introduction 489 -- 15.2 Performance Tables 489 -- 16 Wireless Network Design 513 -- 16.1 Introduction 513 -- 16.2 Wireless Market Modeling 513 -- 16.3 Wireless Network Strategy 515 -- 16.4 Wireless Network Design 516 -- 16.5 Wireless Network Optimization 517 -- 16.6 Wireless Network Performance Assessment 517 -- 17 Wireless Market Modeling 519 -- 17.1 Findings Phase 519 -- 17.2 Area of Interest (AoI) Modeling 519 -- 17.3 Terrain Databases (GIS Geographic Information System) 519 -- 17.4 Demographic Databases 530 -- 17.5 Service Modeling 533 -- 17.6 Environment Modeling 536 -- 17.7 User Terminal Modeling 537 -- 17.8 Service Class Modeling 538 -- 17.9 User Distribution Modeling 542 -- 17.10 Traffic Distribution Modeling 551 -- 18 Wireless Network Strategy 553 -- 18.1 Define Spectrum Usage Strategy 553 -- 18.2 Deployment Strategy 555 -- 18.3 Core Equipment 555 -- 18.4 Base Station Equipment 555 -- 18.5 Customer Premises Equipment (CPE) 563 -- 18.6 Link Budget 565 -- 18.7 Backhaul Equipment 565 -- 18.8 Land Line Access Points of Presence (PoP) 570.
18.9 List of Available Site Locations 570 -- 19 Wireless Network Design 573 -- 19.1 Field Measurement Campaign 573 -- 19.2 Measurement Processing 575 -- 19.3 Propagation Models and Parameters 579 -- 19.4 Site Location 582 -- 19.5 Run Initial Site Predictions 586 -- 19.6 Static Traffic Simulation 593 -- 19.7 Adjust Design for Area and Traffic Coverage 595 -- 19.8 Configure Backhaul Links and Perform Backhaul Predictions 595 -- 19.9 Perform Signal Level Predictions with Extended Radius 597 -- 20 Wireless Network Optimization 599 -- 20.1 Cell Enhancement or Footprint Optimization 599 -- 20.2 Resource Optimization 603 -- 21 Wireless Network Performance Assessment 615 -- 21.1 Perform Dynamic Traffic Simulation 615 -- 21.2 Performance 620 -- 21.3 Perform Network Performance Predictions 625 -- 21.4 Backhaul Links Performance 655 -- 21.5 Analyze Performance Results, Analyze Impact on CAPEX, OPEX and ROI 661 -- 22 Basic Mathematical Concepts Used in Wireless Networks 663 -- 22.1 Circle Relationships 663 -- 22.2 Numbers and Vectors 665 -- 22.3 Functions Decomposition 668 -- 22.4 Sinusoids 670 -- 22.5 Fourier Analysis 674 -- 22.6 Statistical Probability Distributions 676 -- Appendix: List of Equations 689 -- Further Reading 697 -- Index 701.
Record Nr. UNINA-9910133221803321
Korowajczuk Leonhard  
Chichester, West Sussex, U.K. : , : Wiley, , 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
LTE, WIMAX, and WLAN network design, optimization and performance analysis / / Leonhard Korowajczuk
LTE, WIMAX, and WLAN network design, optimization and performance analysis / / Leonhard Korowajczuk
Autore Korowajczuk Leonhard
Edizione [1st edition]
Pubbl/distr/stampa Chichester, West Sussex, U.K. : , : Wiley, , 2011
Descrizione fisica 1 online resource (784 p.)
Disciplina 004.6
621.382
Soggetto topico Wireless LANs
IEEE 802.16 (Standard)
Long-Term Evolution (Telecommunications)
ISBN 1-283-20440-1
9786613204400
1-119-97046-6
1-119-97047-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto List of Figures xix -- List of Tables xxxv -- About the Author xli -- Preface xliii -- Acknowledgements xlv -- List of Abbreviations xlvii -- Introduction 1 -- 1 The Business Plan 5 -- 1.1 Introduction 5 -- 1.2 Market Plan 5 -- 1.3 The Engineering Plan 7 -- 1.4 The Financial Plan 8 -- 1.5 Business Case Questionnaire 11 -- 1.6 Implementing the Business Plan 12 -- 2 Data Transmission 15 -- 2.1 History of the Internet 15 -- 2.2 Network Modeling 16 -- 2.3 Internet Network Architecture 19 -- 2.4 The Physical Layer 20 -- 2.5 The Data Link Layer 22 -- 2.6 Network Layer 24 -- 2.7 Transport Protocols 28 -- 2.8 Routing Protocols 29 -- 2.9 Application Protocols 31 -- 2.10 The World Wide Web (WWW) 35 -- 3 Market Modeling 37 -- 3.1 Introduction 37 -- 3.2 Data Traffic Characterization 38 -- 3.3 Service Plan (SP) and Service Level Agreement (SLA) 41 -- 3.4 User Service Classes 43 -- 3.5 Applications 44 -- 3.6 Over-Subscription Ratio (OSR) 50 -- 3.7 Services Summary 51 -- 3.8 RF Environment 51 -- 3.9 Terminals 52 -- 3.10 Antenna Height 58 -- 3.11 Geographic User Distribution 58 -- 3.12 Network Traffic Modeling 63 -- 3.13 KPI (Key Performance Indicator) Establishment 72 -- 3.14 Wireless Infrastructure 74 -- 4 Signal Processing Fundamentals 77 -- 4.1 Digitizing Analog Signals 77 -- 4.2 Digital Data Representation in the Frequency Domain (Spectrum) 80 -- 4.3 Orthogonal Signals 84 -- 4.4 Combining Shifted Copies of a Sine Wave 86 -- 4.5 Carrier Modulation 87 -- 5 RF Channel Analysis 95 -- 5.1 The Signal 95 -- 5.2 The RF Channel 101 -- 5.3 RF Signal Propagation 102 -- 5.4 RF Channel in the Frequency Domain 107 -- 5.5 RF Channel in Time Domain 115 -- 5.6 RF Channel in the Power Domain 120 -- 5.7 Standardized Channel Models 123 -- 5.8 RF Environment 126 -- 5.9 Fading 128 -- 6 RF Channel Performance Prediction 139 -- 6.1 Advanced RF Propagation Models 139 -- 6.2 RF Measurements and Propagation Model Calibration 163 -- 6.3 RF Interference Issues 172 -- 6.4 Interference Mitigation Techniques 180.
6.5 RF Spectrum Usage and Resource Planning 181 -- 6.6 Availability 187 -- 7 OFDM 193 -- 7.1 Multiplexing 193 -- 7.2 Other PAPR Reduction Methods 201 -- 7.3 De-Multiplexing 201 -- 7.4 Cyclic Prefix 202 -- 7.5 OFDMA 203 -- 7.6 Duplexing 204 -- 7.7 Synchronization 207 -- 7.8 RF Channel Information Detection 208 -- 7.9 Error Correction Techniques 211 -- 7.10 Resource Allocation and Scheduling 215 -- 7.11 Establishing Wireless Data Communications 216 -- 8 OFDM Implementation 221 -- 8.1 Transmit Side 221 -- 8.2 Receive Side 228 -- 9 Wireless Communications Network (WCN) 235 -- 9.1 Introduction 235 -- 9.2 Wireless Access Network 235 -- 9.3 Core Network 237 -- 10 Antenna and Advanced Antenna Systems 245 -- 10.1 Introduction 245 -- 10.2 Antenna Basics 246 -- 10.3 Antenna Radiation 247 -- 10.4 Antenna Types 249 -- 10.5 Antenna Characteristics 254 -- 10.6 Multiple Antennas Arrangements 262 -- 10.7 Receive Diversity 267 -- 10.8 Transmit Diversity 271 -- 10.9 Transmit and Receive Diversity (TRD) 275 -- 10.10 Spatial Multiplexing (Matrix B) 276 -- 10.11 Diversity Performance 278 -- 10.12 Antenna Array System (AAS), Advanced Antenna System (AAS) or Adaptive Antenna Steering (AAS) or Beamforming 282 -- 11 Radio Performance 287 -- 11.1 Introduction 287 -- 11.2 Input RF Noise 288 -- 11.3 Receive Circuit Noise 288 -- 11.4 Signal to Noise Ratio 288 -- 11.5 Radio Sensitivity Calculations 295 -- 11.6 Radio Configuration 307 -- 12 Wireless LAN 311 -- 12.1 Standardization 311 -- 12.2 Architecture 315 -- 12.3 The IEEE Std 802.11-2007 316 -- 12.4 Enhancements for Higher Throughputs, Amendment 5: 802.11n-2009 328 -- 12.5 Work in Progress 333 -- 12.6 Throughput 334 -- 13 WiMAX 341 -- 13.1 Standardization 341 -- 13.2 Network Architecture 344 -- 13.3 Physical Layer (PHY) 353 -- 13.4 Multiple Access OFDMA 369 -- 13.5 WiMAX Network Layers 370 -- 13.6 WiMAX Operation Phases 384 -- 13.7 WiMAX Interference Reduction Techniques 386 -- 13.8 WiMAX Resource Planning 401 -- 14 Universal Mobile Telecommunication System / Long Term Evolution (UMTS-LTE) 409.
14.1 Introduction 409 -- 14.2 Standardization 412 -- 14.3 Frequency Bands 415 -- 14.4 Architecture 417 -- 14.5 Wireless Message Flow and Protocol Stack 424 -- 14.6 Wireline Message Flow and Protocol Stacks 433 -- 14.7 Identifiers 434 -- 14.8 HARQ Procedure 435 -- 14.9 Scrambling Sequences 439 -- 14.10 Physical Layer (PHY) 439 -- 14.11 PHY Structure 444 -- 14.12 PHY TDD 457 -- 14.13 Multimedia Broadcast/Multicast Service (MBMS) 457 -- 14.14 Call Placement Scenario 461 -- 14.15 PHY Characteristics and Performance 463 -- 14.16 Multiple Antennas in LTE 466 -- 14.17 Resource Planning in LTE 472 -- 14.18 Self-Organizing Network (SON) 473 -- 14.19 RAT (Radio Access Technology) Internetworking 475 -- 14.20 LTE Radio Propagation Channel Considerations 475 -- 14.21 Handover Procedures in LTE 481 -- 14.22 Measurements 482 -- 14.23 LTE Practical System Capacity 483 -- 14.24 Synchronization 486 -- 14.25 Beyond 4G 486 -- 15 Broadband Standards Comparison 489 -- 15.1 Introduction 489 -- 15.2 Performance Tables 489 -- 16 Wireless Network Design 513 -- 16.1 Introduction 513 -- 16.2 Wireless Market Modeling 513 -- 16.3 Wireless Network Strategy 515 -- 16.4 Wireless Network Design 516 -- 16.5 Wireless Network Optimization 517 -- 16.6 Wireless Network Performance Assessment 517 -- 17 Wireless Market Modeling 519 -- 17.1 Findings Phase 519 -- 17.2 Area of Interest (AoI) Modeling 519 -- 17.3 Terrain Databases (GIS Geographic Information System) 519 -- 17.4 Demographic Databases 530 -- 17.5 Service Modeling 533 -- 17.6 Environment Modeling 536 -- 17.7 User Terminal Modeling 537 -- 17.8 Service Class Modeling 538 -- 17.9 User Distribution Modeling 542 -- 17.10 Traffic Distribution Modeling 551 -- 18 Wireless Network Strategy 553 -- 18.1 Define Spectrum Usage Strategy 553 -- 18.2 Deployment Strategy 555 -- 18.3 Core Equipment 555 -- 18.4 Base Station Equipment 555 -- 18.5 Customer Premises Equipment (CPE) 563 -- 18.6 Link Budget 565 -- 18.7 Backhaul Equipment 565 -- 18.8 Land Line Access Points of Presence (PoP) 570.
18.9 List of Available Site Locations 570 -- 19 Wireless Network Design 573 -- 19.1 Field Measurement Campaign 573 -- 19.2 Measurement Processing 575 -- 19.3 Propagation Models and Parameters 579 -- 19.4 Site Location 582 -- 19.5 Run Initial Site Predictions 586 -- 19.6 Static Traffic Simulation 593 -- 19.7 Adjust Design for Area and Traffic Coverage 595 -- 19.8 Configure Backhaul Links and Perform Backhaul Predictions 595 -- 19.9 Perform Signal Level Predictions with Extended Radius 597 -- 20 Wireless Network Optimization 599 -- 20.1 Cell Enhancement or Footprint Optimization 599 -- 20.2 Resource Optimization 603 -- 21 Wireless Network Performance Assessment 615 -- 21.1 Perform Dynamic Traffic Simulation 615 -- 21.2 Performance 620 -- 21.3 Perform Network Performance Predictions 625 -- 21.4 Backhaul Links Performance 655 -- 21.5 Analyze Performance Results, Analyze Impact on CAPEX, OPEX and ROI 661 -- 22 Basic Mathematical Concepts Used in Wireless Networks 663 -- 22.1 Circle Relationships 663 -- 22.2 Numbers and Vectors 665 -- 22.3 Functions Decomposition 668 -- 22.4 Sinusoids 670 -- 22.5 Fourier Analysis 674 -- 22.6 Statistical Probability Distributions 676 -- Appendix: List of Equations 689 -- Further Reading 697 -- Index 701.
Record Nr. UNINA-9910825754103321
Korowajczuk Leonhard  
Chichester, West Sussex, U.K. : , : Wiley, , 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Mobile ad hoc networking : the cutting edge directions / / edited by Stefano Basagni, Marco Conti, Silvia Giordano, Ivan Stojmenovic
Mobile ad hoc networking : the cutting edge directions / / edited by Stefano Basagni, Marco Conti, Silvia Giordano, Ivan Stojmenovic
Edizione [2nd ed.]
Pubbl/distr/stampa Hoboken, New Jersey : , : John Wiley & Sons Inc., , [2012]
Descrizione fisica 1 online resource (887 p.)
Disciplina 004.6 167
Collana IEEE series on digital & mobile communication
Soggetto topico Ad hoc networks (Computer networks)
Wireless LANs
Mobile computing
ISBN 1-118-51127-1
1-299-24198-0
1-118-51124-7
1-118-51123-9
Classificazione TEC041000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto PREFACE xiii -- ACKNOWLEDGMENTS xv -- CONTRIBUTORS xvii -- PART I GENERAL ISSUES -- 1 Multihop Ad Hoc Networking: The Evolutionary Path 3 -- Marco Conti and Silvia Giordano -- 1.1 Introduction, 3 -- 1.2 MANET Research: Major Achievements and Lessons Learned, 5 -- 1.3 Multihop Ad Hoc Networks: From Theory to Reality, 16 -- 1.4 Summary and Conclusions, 25 -- 2 Enabling Technologies and Standards for Mobile Multihop Wireless Networking 34 -- Enzo Mingozzi and Claudio Cicconetti -- 2.1 Introduction, 35 -- 2.2 Broadband Wireless Access Technologies, 37 -- 2.3 Wireless Local Area Networks Technologies, 43 -- 2.4 Personal Area Networks Technologies, 53 -- 2.5 Mobility Support in Heterogeneous Scenarios, 65 -- 2.6 Conclusions, 67 -- 3 Application Scenarios 77 -- Ilias Leontiadis, Ettore Ferranti, Cecilia Mascolo, Liam McNamara, Bence Pasztor, Niki Trigoni, and Sonia Waharte -- 3.1 Introduction, 78 -- 3.2 Military Applications, 79 -- 3.3 Network Connectivity, 81 -- 3.4 Wireless Sensor Networks, 84 -- 3.5 Search and Rescue, 89 -- 3.6 Vehicular Networks, 93 -- 3.7 Personal Content Dissemination, 96 -- 3.8 Conclusions, 98 -- 4 Security in Wireless Ad Hoc Networks 106 -- Roberto Di Pietro and Josep Domingo-Ferrer -- 4.1 Introduction, 106 -- 4.2 Wireless Sensor Networks, 110 -- 4.3 Unattended WSN, 125 -- 4.4 Wireless Mesh Networks, 130 -- 4.5 Delay-Tolerant Networks, 134 -- 4.6 Vehicular Ad Hoc Networks (VANETs), 137 -- 4.7 Conclusions and Open Research Issues, 144 -- 5 Architectural Solutions for End-User Mobility 154 -- Salvatore Vanini and Anna Forster -- 5.1 Introduction, 154 -- 5.2 Mesh Networks, 155 -- 5.3 Wireless Sensor Networks, 182 -- 5.4 Conclusion, 188 -- 6 ExperimentalWork Versus Simulation in the Study of Mobile Ad Hoc Networks 191 -- Carlo Vallati, Victor Omwando, and Prasant Mohapatra -- 6.1 Introduction, 191 -- 6.2 Overview of Mobile Ad Hoc Network Simulation Tools and Experimental Platforms, 192 -- 6.3 Gap Between Simulations and Experiments: Issues and Factors, 199.
6.4 Good Simulations: Validation, Verification, and Calibration, 220 -- 6.5 Simulators and Testbeds: Future Prospects, 226 -- 6.6 Conclusion, 228 -- PART II MESH NETWORKING -- 7 Resource Optimization in Multiradio Multichannel Wireless Mesh Networks 241 -- Antonio Capone, Ilario Filippini, Stefano Gualandi, and Di Yuan -- 7.1 Introduction, 242 -- 7.2 Network and Interference Models, 244 -- 7.3 Maximum Link Activation Under the SINR Model, 245 -- 7.4 Optimal Link Scheduling, 247 -- 7.5 Joint Routing and Scheduling, 254 -- 7.6 Dealing with Channel Assignment and Directional Antennas, 257 -- 7.7 Cooperative Networking, 263 -- 7.8 Concluding Remarks and Future Issues, 269 -- 8 Quality of Service in Mesh Networks 275 -- Raffaele Bruno -- 8.1 Introduction, 275 -- 8.2 QoS Definition, 277 -- 8.3 A Taxonomy of Existing QoS Routing Approaches, 278 -- 8.4 Routing Protocols with Optimization-Based Path Selection, 280 -- 8.5 Routing Metrics for Minimum-Weight Path Selection, 291 -- 8.6 Feedback-Based Path Selection, 307 -- 8.7 Conclusions, 308 -- PART III OPPORTUNISTIC NETWORKING -- 9 Applications in Delay-Tolerant and Opportunistic Networks 317 -- Teemu KS arkkS ainen, Mikko Pitkanen, and JoergOtt -- 9.1 Application Scenarios, 318 -- 9.2 Challenges for Applications Over DTN, 322 -- 9.3 Critical Mechanisms for DTN Applications, 328 -- 9.4 DTN Applications (Case Studies), 336 -- 9.5 Conclusion: Rethinking Applications for DTNs, 357 -- 10 Mobility Models in Opportunistic Networks 360 -- Kyunghan Lee, Pan Hui, and Song Chong -- 10.1 Introduction, 360 -- 10.2 Contact-Based Measurement, Analysis, and Modeling, 361 -- 10.3 Trajectory Models, 376 -- 10.4 Implications for Network Protocol Design, 399 -- 10.5 New Paradigm: Delay-Resource Tradeoffs, 406 -- 11 Opportunistic Routing 419 -- Thrasyvoulos Spyropoulos and Andreea Picu -- 11.1 Introduction, 420 -- 11.2 Cornerstones of Opportunistic Networks, 422 -- 11.3 Dealing with Uncertainty: Redundancy-Based Routing, 428 -- 11.4 Capitalizing on Structure: Utility-Based Forwarding, 435.
11.5 Hybrid Solutions: Combining Redundancy and Utility, 444 -- 11.6 Conclusion, 447 -- 12 Data Dissemination in Opportunistic Networks 453 -- Chiara Boldrini and Andrea Passarella -- 12.1 Introduction, 454 -- 12.2 Initial Ideas: PodNet, 456 -- 12.3 Social-Aware Schemes, 460 -- 12.4 Publish/Subscribe Schemes, 464 -- 12.5 Global Optimization, 469 -- 12.6 Infrastructure-Based Approaches, 474 -- 12.7 Approaches Inspired by Unstructured p2p Systems, 478 -- 12.8 Further Readings, 482 -- 13 Task Farming in Crowd Computing 491 -- Derek G. Murray, Karthik Nilakant, J. Crowcroft, and E. Yoneki -- 13.1 Introduction, 491 -- 13.2 Ideal Parallelism Model, 494 -- 13.3 Task Farming, 498 -- 13.4 Socially Aware Task Farming, 500 -- 13.5 Related Work, 510 -- 13.6 Conclusions and Future Work, 510 -- PART IV VANET -- 14 A Taxonomy of Data Communication Protocols for Vehicular Ad Hoc Networks 517 -- Yousef-Awwad Daraghmi, Ivan Stojmenovic, and Chih-Wei Yi -- 14.1 Introduction, 517 -- 14.2 Taxonomy of VANET Communication Protocols, 520 -- 14.3 Reliability-Oriented Geocasting Protocols, 525 -- 14.4 Time-Critical Geocasting Protocols, 527 -- 14.5 Small-Scale Routing Protocols, 529 -- 14.6 Large-Scale Routing, 534 -- 14.7 Summary, 539 -- 14.8 Conclusion and Future Work, 539 -- 15 Mobility Models, Topology, and Simulations in VANET 545 -- Francisco J. Ros, Juan A. Martinez, and Pedro M. Ruiz -- 15.1 Introduction and Motivation, 545 -- 15.2 Mobility Models, 547 -- 15.3 Mobility Simulators, 551 -- 15.4 Integrated Simulators, 557 -- 15.5 Modeling Vehicular Communications, 560 -- 15.6 Analysis of Connectivity in Highways, 565 -- 15.7 Conclusion and Future Work, 572 -- 16 ExperimentalWork on VANET 577 -- Minglu Li and Hongzi Zhu -- 16.1 Introduction, 577 -- 16.2 MIT CarTel, 579 -- 16.3 UMass DieselNet, 581 -- 16.4 SJTU ShanghaiGrid, 584 -- 16.5 NCTU VANET Testbed, 587 -- 16.6 UCLA CVeT, 589 -- 16.7 GM DSRC Fleet, 590 -- 16.8 FleetNet Project, 591 -- 16.9 Network on Wheels (NOW) Project, 592.
16.10 Advanced Safety Vehicles (ASVs), 593 -- 16.11 Japan Automobile Research Institute (JARI), 594 -- 17 MAC Protocols for VANET 599 -- Mohammad S. Almalag, Michele C. Weigle, and Stephan Olariu -- 17.1 Introduction, 599 -- 17.2 MAC Metrics, 602 -- 17.3 IEEE Standards for MAC Protocols for VANETs, 602 -- 17.4 Alternate MAC Protocols for VANET, 606 -- 17.5 Conclusion, 616 -- 18 Cognitive Radio Vehicular Ad Hoc Networks: Design, Implementation, and Future Challenges 619 -- Marco Di Felice, Kaushik Roy Chowdhury, and Luciano Bononi -- 18.1 Introduction, 620 -- 18.2 Characteristics of Cognitive Radio Vehicular Networks, 622 -- 18.3 Applications of Cognitive Radio Vehicular Networks, 628 -- 18.4 CRV Network Architecture, 629 -- 18.5 Classification and Description of Existing Works on CRV Networks, 630 -- 18.6 Research Issues in CRVs, 636 -- 18.7 Conclusion, 640 -- 19 The Next Paradigm Shift: From Vehicular Networks to Vehicular Clouds 645 -- Stephan Olariu, Tihomir Hristov, and Gongjun Yan -- 19.1 By Way of Motivation, 646 -- 19.2 The Vehicular Model, 647 -- 19.3 Vehicular Networks, 649 -- 19.4 Cloud Computing, 650 -- 19.5 Vehicular Clouds, 652 -- 19.6 How are Vehicular Clouds Different?, 654 -- 19.7 Feasible Instances of Vehicular Clouds, 657 -- 19.8 More Application Scenarios, 660 -- 19.9 Security and Privacy in Vehicular Clouds, 666 -- 19.10 Key Management, 677 -- 19.11 Research Challenges, 680 -- 19.12 Architectures for Vehicular Clouds, 681 -- 19.13 Resource Aggregation in Vehicular Clouds, 683 -- 19.14 A Simulation Study of VC, 690 -- 19.15 Future Work, 691 -- 19.16 Where to From Here?, 693 -- PART V SENSOR NETWORKING -- 20 Wireless Sensor Networks with Energy Harvesting 703 -- Stefano Basagni, M. Yousof Naderi, Chiara Petrioli, and Dora Spenza -- 20.1 Introduction, 703 -- 20.2 Node Platforms, 704 -- 20.3 Techniques of Energy Harvesting, 709 -- 20.4 Prediction Models, 713 -- 20.5 Protocols for EHWSNs, 717 -- 21 Robot-AssistedWireless Sensor Networks: Recent Applications and Future Challenges 737 -- Rafael Falcon, Amiya Nayak, and Ivan Stojmenovic.
21.1 Introduction, 737 -- 21.2 Robot-Assisted Sensor Placement, 740 -- 21.3 Robot-Assisted Sensor Relocation, 751 -- 21.4 Robot-Assisted Sensor Maintenance, 762 -- 21.5 Future Challenges, 763 -- 22 Underwater Networks with Limited Mobility: Algorithms, Systems, and Experiments 769 -- Carrick Detweiler, Elizabeth Basha, Marek Doniec, and Daniela Rus -- 22.1 Introduction, 770 -- 22.2 Related Work, 772 -- 22.3 Decentralized Control Algorithm, 775 -- 22.4 General System Architecture and Design, 779 -- 22.5 Application-Specific Architecture and Design, 786 -- 22.6 Experiments and Results, 789 -- 22.7 Conclusions, 799 -- 23 Advances in Underwater Acoustic Networking 804 -- Tommaso Melodia, Hovannes Kulhandjian, Li-Chung Kuo, and Emrecan Demirors -- 23.1 Introduction, 805 -- 23.2 Communication Architecture, 806 -- 23.3 Basics of Underwater Communications, 807 -- 23.4 Physical Layer, 814 -- 23.5 Medium Access Control Layer, 822 -- 23.6 Network Layer, 829 -- 23.7 Cross-Layer Design, 833 -- 23.8 Experimental Platforms, 834 -- 23.9 UW-Buffalo: An Underwater Acoustic Testbed at the University at Buffalo, 842 -- 23.10 Conclusions, 842 -- References, 843 -- Index 853.
Record Nr. UNINA-9910141601603321
Hoboken, New Jersey : , : John Wiley & Sons Inc., , [2012]
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Mobile ad hoc networking : the cutting edge directions / / edited by Stefano Basagni, Marco Conti, Silvia Giordano, Ivan Stojmenovic
Mobile ad hoc networking : the cutting edge directions / / edited by Stefano Basagni, Marco Conti, Silvia Giordano, Ivan Stojmenovic
Edizione [2nd ed.]
Pubbl/distr/stampa Hoboken, New Jersey : , : John Wiley & Sons Inc., , [2012]
Descrizione fisica 1 online resource (887 p.)
Disciplina 004.6 167
Collana IEEE series on digital & mobile communication
Soggetto topico Ad hoc networks (Computer networks)
Wireless LANs
Mobile computing
ISBN 1-118-51127-1
1-299-24198-0
1-118-51124-7
1-118-51123-9
Classificazione TEC041000
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto PREFACE xiii -- ACKNOWLEDGMENTS xv -- CONTRIBUTORS xvii -- PART I GENERAL ISSUES -- 1 Multihop Ad Hoc Networking: The Evolutionary Path 3 -- Marco Conti and Silvia Giordano -- 1.1 Introduction, 3 -- 1.2 MANET Research: Major Achievements and Lessons Learned, 5 -- 1.3 Multihop Ad Hoc Networks: From Theory to Reality, 16 -- 1.4 Summary and Conclusions, 25 -- 2 Enabling Technologies and Standards for Mobile Multihop Wireless Networking 34 -- Enzo Mingozzi and Claudio Cicconetti -- 2.1 Introduction, 35 -- 2.2 Broadband Wireless Access Technologies, 37 -- 2.3 Wireless Local Area Networks Technologies, 43 -- 2.4 Personal Area Networks Technologies, 53 -- 2.5 Mobility Support in Heterogeneous Scenarios, 65 -- 2.6 Conclusions, 67 -- 3 Application Scenarios 77 -- Ilias Leontiadis, Ettore Ferranti, Cecilia Mascolo, Liam McNamara, Bence Pasztor, Niki Trigoni, and Sonia Waharte -- 3.1 Introduction, 78 -- 3.2 Military Applications, 79 -- 3.3 Network Connectivity, 81 -- 3.4 Wireless Sensor Networks, 84 -- 3.5 Search and Rescue, 89 -- 3.6 Vehicular Networks, 93 -- 3.7 Personal Content Dissemination, 96 -- 3.8 Conclusions, 98 -- 4 Security in Wireless Ad Hoc Networks 106 -- Roberto Di Pietro and Josep Domingo-Ferrer -- 4.1 Introduction, 106 -- 4.2 Wireless Sensor Networks, 110 -- 4.3 Unattended WSN, 125 -- 4.4 Wireless Mesh Networks, 130 -- 4.5 Delay-Tolerant Networks, 134 -- 4.6 Vehicular Ad Hoc Networks (VANETs), 137 -- 4.7 Conclusions and Open Research Issues, 144 -- 5 Architectural Solutions for End-User Mobility 154 -- Salvatore Vanini and Anna Forster -- 5.1 Introduction, 154 -- 5.2 Mesh Networks, 155 -- 5.3 Wireless Sensor Networks, 182 -- 5.4 Conclusion, 188 -- 6 ExperimentalWork Versus Simulation in the Study of Mobile Ad Hoc Networks 191 -- Carlo Vallati, Victor Omwando, and Prasant Mohapatra -- 6.1 Introduction, 191 -- 6.2 Overview of Mobile Ad Hoc Network Simulation Tools and Experimental Platforms, 192 -- 6.3 Gap Between Simulations and Experiments: Issues and Factors, 199.
6.4 Good Simulations: Validation, Verification, and Calibration, 220 -- 6.5 Simulators and Testbeds: Future Prospects, 226 -- 6.6 Conclusion, 228 -- PART II MESH NETWORKING -- 7 Resource Optimization in Multiradio Multichannel Wireless Mesh Networks 241 -- Antonio Capone, Ilario Filippini, Stefano Gualandi, and Di Yuan -- 7.1 Introduction, 242 -- 7.2 Network and Interference Models, 244 -- 7.3 Maximum Link Activation Under the SINR Model, 245 -- 7.4 Optimal Link Scheduling, 247 -- 7.5 Joint Routing and Scheduling, 254 -- 7.6 Dealing with Channel Assignment and Directional Antennas, 257 -- 7.7 Cooperative Networking, 263 -- 7.8 Concluding Remarks and Future Issues, 269 -- 8 Quality of Service in Mesh Networks 275 -- Raffaele Bruno -- 8.1 Introduction, 275 -- 8.2 QoS Definition, 277 -- 8.3 A Taxonomy of Existing QoS Routing Approaches, 278 -- 8.4 Routing Protocols with Optimization-Based Path Selection, 280 -- 8.5 Routing Metrics for Minimum-Weight Path Selection, 291 -- 8.6 Feedback-Based Path Selection, 307 -- 8.7 Conclusions, 308 -- PART III OPPORTUNISTIC NETWORKING -- 9 Applications in Delay-Tolerant and Opportunistic Networks 317 -- Teemu KS arkkS ainen, Mikko Pitkanen, and JoergOtt -- 9.1 Application Scenarios, 318 -- 9.2 Challenges for Applications Over DTN, 322 -- 9.3 Critical Mechanisms for DTN Applications, 328 -- 9.4 DTN Applications (Case Studies), 336 -- 9.5 Conclusion: Rethinking Applications for DTNs, 357 -- 10 Mobility Models in Opportunistic Networks 360 -- Kyunghan Lee, Pan Hui, and Song Chong -- 10.1 Introduction, 360 -- 10.2 Contact-Based Measurement, Analysis, and Modeling, 361 -- 10.3 Trajectory Models, 376 -- 10.4 Implications for Network Protocol Design, 399 -- 10.5 New Paradigm: Delay-Resource Tradeoffs, 406 -- 11 Opportunistic Routing 419 -- Thrasyvoulos Spyropoulos and Andreea Picu -- 11.1 Introduction, 420 -- 11.2 Cornerstones of Opportunistic Networks, 422 -- 11.3 Dealing with Uncertainty: Redundancy-Based Routing, 428 -- 11.4 Capitalizing on Structure: Utility-Based Forwarding, 435.
11.5 Hybrid Solutions: Combining Redundancy and Utility, 444 -- 11.6 Conclusion, 447 -- 12 Data Dissemination in Opportunistic Networks 453 -- Chiara Boldrini and Andrea Passarella -- 12.1 Introduction, 454 -- 12.2 Initial Ideas: PodNet, 456 -- 12.3 Social-Aware Schemes, 460 -- 12.4 Publish/Subscribe Schemes, 464 -- 12.5 Global Optimization, 469 -- 12.6 Infrastructure-Based Approaches, 474 -- 12.7 Approaches Inspired by Unstructured p2p Systems, 478 -- 12.8 Further Readings, 482 -- 13 Task Farming in Crowd Computing 491 -- Derek G. Murray, Karthik Nilakant, J. Crowcroft, and E. Yoneki -- 13.1 Introduction, 491 -- 13.2 Ideal Parallelism Model, 494 -- 13.3 Task Farming, 498 -- 13.4 Socially Aware Task Farming, 500 -- 13.5 Related Work, 510 -- 13.6 Conclusions and Future Work, 510 -- PART IV VANET -- 14 A Taxonomy of Data Communication Protocols for Vehicular Ad Hoc Networks 517 -- Yousef-Awwad Daraghmi, Ivan Stojmenovic, and Chih-Wei Yi -- 14.1 Introduction, 517 -- 14.2 Taxonomy of VANET Communication Protocols, 520 -- 14.3 Reliability-Oriented Geocasting Protocols, 525 -- 14.4 Time-Critical Geocasting Protocols, 527 -- 14.5 Small-Scale Routing Protocols, 529 -- 14.6 Large-Scale Routing, 534 -- 14.7 Summary, 539 -- 14.8 Conclusion and Future Work, 539 -- 15 Mobility Models, Topology, and Simulations in VANET 545 -- Francisco J. Ros, Juan A. Martinez, and Pedro M. Ruiz -- 15.1 Introduction and Motivation, 545 -- 15.2 Mobility Models, 547 -- 15.3 Mobility Simulators, 551 -- 15.4 Integrated Simulators, 557 -- 15.5 Modeling Vehicular Communications, 560 -- 15.6 Analysis of Connectivity in Highways, 565 -- 15.7 Conclusion and Future Work, 572 -- 16 ExperimentalWork on VANET 577 -- Minglu Li and Hongzi Zhu -- 16.1 Introduction, 577 -- 16.2 MIT CarTel, 579 -- 16.3 UMass DieselNet, 581 -- 16.4 SJTU ShanghaiGrid, 584 -- 16.5 NCTU VANET Testbed, 587 -- 16.6 UCLA CVeT, 589 -- 16.7 GM DSRC Fleet, 590 -- 16.8 FleetNet Project, 591 -- 16.9 Network on Wheels (NOW) Project, 592.
16.10 Advanced Safety Vehicles (ASVs), 593 -- 16.11 Japan Automobile Research Institute (JARI), 594 -- 17 MAC Protocols for VANET 599 -- Mohammad S. Almalag, Michele C. Weigle, and Stephan Olariu -- 17.1 Introduction, 599 -- 17.2 MAC Metrics, 602 -- 17.3 IEEE Standards for MAC Protocols for VANETs, 602 -- 17.4 Alternate MAC Protocols for VANET, 606 -- 17.5 Conclusion, 616 -- 18 Cognitive Radio Vehicular Ad Hoc Networks: Design, Implementation, and Future Challenges 619 -- Marco Di Felice, Kaushik Roy Chowdhury, and Luciano Bononi -- 18.1 Introduction, 620 -- 18.2 Characteristics of Cognitive Radio Vehicular Networks, 622 -- 18.3 Applications of Cognitive Radio Vehicular Networks, 628 -- 18.4 CRV Network Architecture, 629 -- 18.5 Classification and Description of Existing Works on CRV Networks, 630 -- 18.6 Research Issues in CRVs, 636 -- 18.7 Conclusion, 640 -- 19 The Next Paradigm Shift: From Vehicular Networks to Vehicular Clouds 645 -- Stephan Olariu, Tihomir Hristov, and Gongjun Yan -- 19.1 By Way of Motivation, 646 -- 19.2 The Vehicular Model, 647 -- 19.3 Vehicular Networks, 649 -- 19.4 Cloud Computing, 650 -- 19.5 Vehicular Clouds, 652 -- 19.6 How are Vehicular Clouds Different?, 654 -- 19.7 Feasible Instances of Vehicular Clouds, 657 -- 19.8 More Application Scenarios, 660 -- 19.9 Security and Privacy in Vehicular Clouds, 666 -- 19.10 Key Management, 677 -- 19.11 Research Challenges, 680 -- 19.12 Architectures for Vehicular Clouds, 681 -- 19.13 Resource Aggregation in Vehicular Clouds, 683 -- 19.14 A Simulation Study of VC, 690 -- 19.15 Future Work, 691 -- 19.16 Where to From Here?, 693 -- PART V SENSOR NETWORKING -- 20 Wireless Sensor Networks with Energy Harvesting 703 -- Stefano Basagni, M. Yousof Naderi, Chiara Petrioli, and Dora Spenza -- 20.1 Introduction, 703 -- 20.2 Node Platforms, 704 -- 20.3 Techniques of Energy Harvesting, 709 -- 20.4 Prediction Models, 713 -- 20.5 Protocols for EHWSNs, 717 -- 21 Robot-AssistedWireless Sensor Networks: Recent Applications and Future Challenges 737 -- Rafael Falcon, Amiya Nayak, and Ivan Stojmenovic.
21.1 Introduction, 737 -- 21.2 Robot-Assisted Sensor Placement, 740 -- 21.3 Robot-Assisted Sensor Relocation, 751 -- 21.4 Robot-Assisted Sensor Maintenance, 762 -- 21.5 Future Challenges, 763 -- 22 Underwater Networks with Limited Mobility: Algorithms, Systems, and Experiments 769 -- Carrick Detweiler, Elizabeth Basha, Marek Doniec, and Daniela Rus -- 22.1 Introduction, 770 -- 22.2 Related Work, 772 -- 22.3 Decentralized Control Algorithm, 775 -- 22.4 General System Architecture and Design, 779 -- 22.5 Application-Specific Architecture and Design, 786 -- 22.6 Experiments and Results, 789 -- 22.7 Conclusions, 799 -- 23 Advances in Underwater Acoustic Networking 804 -- Tommaso Melodia, Hovannes Kulhandjian, Li-Chung Kuo, and Emrecan Demirors -- 23.1 Introduction, 805 -- 23.2 Communication Architecture, 806 -- 23.3 Basics of Underwater Communications, 807 -- 23.4 Physical Layer, 814 -- 23.5 Medium Access Control Layer, 822 -- 23.6 Network Layer, 829 -- 23.7 Cross-Layer Design, 833 -- 23.8 Experimental Platforms, 834 -- 23.9 UW-Buffalo: An Underwater Acoustic Testbed at the University at Buffalo, 842 -- 23.10 Conclusions, 842 -- References, 843 -- Index 853.
Record Nr. UNINA-9910830080303321
Hoboken, New Jersey : , : John Wiley & Sons Inc., , [2012]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Mobile ad hoc networking [[electronic resource] /] / edited by Stefano Basagni ... [et al.]
Mobile ad hoc networking [[electronic resource] /] / edited by Stefano Basagni ... [et al.]
Pubbl/distr/stampa Hoboken, NJ, : John Wiley, c2004
Descrizione fisica 1 online resource (479 p.)
Disciplina 004.6
004.6/8
621.3845
Altri autori (Persone) BasagniStefano <1965->
Soggetto topico Wireless LANs
Mobile computing
ISBN 1-280-34582-9
9786610345823
0-471-65688-7
0-471-65689-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto MOBILE AD HOC NETWORKING; CONTENTS; Contributors; Preface; 1 Mobile Ad-Hoc Networking with a View of 4G Wireless: Imperatives and Challenges; 2 Off-the-Shelf Enables of Ad Hoc Networks; 3 IEEE 802.11 in Ad Hoc Networks: Protocols, Performance and Open Issues; 4 Scatternet Formation in Bluetooth Networks; 5 Antenna Beamforming and Power Control for Ad Hoc Networks; 6 Topology Control in Wireless Ad Hoc Networks; 7 Broadcasting and Activity Scheduling in Ad Hoc Networks; 8 Location Discovery; 9 Mobile Ad Hoc Networks (MANETs): Routing Technology for Dynamic, Wireless Networking
10 Routing Approaches in Mobile Ad Hoc Networks11 Energy-Efficient Communication in Ad Hoc Wireless Networks; 12 Ad Hoc Networks Security; 13 Self-Organized and Cooperative Ad Hoc Networking; 14 Simulation and Modeling of Wireless, Mobile, and Ad Hoc Networks; 15 Modeling Cross-Layering Interaction Using Inverse Optimization; 16 Algorithmic Challenges in Ad Hoc Networks; Index; About the Editors
Record Nr. UNINA-9910146068503321
Hoboken, NJ, : John Wiley, c2004
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui