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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-9910146401203321 |
Akyildiz Ian Fuat
|
||
| Chichester, U.K. : , : Wiley, , 2009 | ||
| 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-9910822434803321 |
|
Akyildiz Ian Fuat
|
||
| Chichester, U.K. : , : Wiley, , 2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||