Wireless Sensor and Ad Hoc Networks Under Diversified Network Scenarios.

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Due to significant advantages, including convenience, efficiency and cost-effectiveness, the implementation and use of wireless ad hoc and sensor networks have gained steep growth in recent years. This timely book presents the current state-of-the-art in these popular technologies, providing you wit...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Sarkar, Subir Kumar
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Norwood : Artech House, 2012.
Temas:
Wireless sensor networks.
Sensor networks.
Réseaux de capteurs sans fil.
Réseaux de capteurs.
Sensor networks
Wireless sensor networks
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Wireless Sensor and Ad Hoc Networks Under Diversified Network Scenarios; Contents; Preface; 1 Introduction; 1.1 Overview of Wireless Networks; 1.2 Types of Wireless Communication; 1.2.1 Wireless Personal Area Networks Bluetooth; 1.2.2 Wireless Local Area Networks 802.11; 1.2.3 Wireless Metropolitan Area Networks WiMAX; 1.2.4 Wireless Wide Area Networks; 1.3 The IEEE 802.11 Family; 1.4 Cellular Network; 1.4.1 Existence of Mobile Generation and 4G; 1.4.2 WiMAX; 1.5 Mobile Ad Hoc Networks; 1.6 Wireless Sensor Networks; 1.7 Bluetooth; 1.8 Organization of the Book; References.
  • 2 Fundamentals of Wireless Mobile Ad Hoc Networks2.1 Introduction; 2.2 Literature Background; 2.3 Applications of Mobile Ad Hoc Networks; 2.3.1 Characteristics of MANETs; 2.4 Medium Access Control Layer; 2.5 Topology Control; 2.6 Routing Protocols; 2.7 Broadcasting; 2.8 Multicasting; 2.9 Internet Connectivity for Mobile Ad Hoc Networks; 2.10 Security in Mobile Ad Hoc Networks; References; 3 Scenario Based Performance Analysis of Various Routing Protocols in MANETs; 3.1 Introduction; 3.2 Literature Background; 3.3 Properties Desired in a Routing Protocol.
  • 3.4 Discussion of Various Routing Protocols3.4.1 Ad Hoc On Demand Distance Vector Routing Protocol; 3.4.2 Ad Hoc On Demand Distance Vector Routing Algorithm by Uppsala University (AODVUU); 3.4.3 Ad Hoc On Demand Multipath Distance Vector Routing Algorithm; 3.4.4 Reverse Ad Hoc On Demand Distance Vector Routing Algorithm (RAODV); 3.4.5 Dynamic Source Routing Algorithm (DSR); 3.4.6 Destination Sequence Distance Vector Routing Algorithm (DSDV); 3.4.7 Dynamic MANET On Demand (DYMO) Routing Protocol; 3.4.8 Fisheye State Routing Protocol (FSR); 3.4.9 Location-Aided Routing (LAR) Protocol.
  • 3.4.10 Optimized Link State Routing Protocol3.4.11 Temporally Ordered Routing Algorithm (TORA); 3.5 Network Simulator, NS-2; 3.6 Simulation Environment; 3.7 Result Analysis; 3.7.1 Evaluation of Performance Metrics; References; 4 An Empirical Study of Various Mobility Models in MANETs; 4.1 Introduction; 4.2 Literature Background; 4.3 Description of Various Mobility Models; 4.3.1 Random Waypoint Mobility Model; 4.3.2 Random Waypoint Mobility Model with Steady State; 4.3.3 Random Walk Mobility Model with Reflection; 4.3.4 Random Walk Mobility Model with Wrapping.
  • 4.3.5 Gauss Markov Mobility Model4.3.6 Reference Point Group Mobility Model; 4.3.7 Group Force Mobility Model; 4.3.8 Manhattan Mobility Model; 4.3.9 Levy Walk Mobility Model; 4.3.10 Community Based Mobility Model; 4.3.11 Semi-Markov Smooth Mobility Model; 4.4 Simulation Environment; 4.5 Result Analysis; 4.5.1 Evaluation of Performance Metrics with Mobility Speed; 4.5.2 Evaluation of Performance Metrics for Different Network Scenarios; References; 5 Overhead Control Mechanism and Analysis in MANET; 5.1 Introduction; 5.2 Literature Background.

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