Contents 1. Introduction 1.1 Introduction 1.2 What is a WSAN? 1.3 Main Features of WSANs 1.4 Practical Issues of WSANs Related to Energy Management 1.5 Current and Future Research on WSANs 2. Applications of WSANs 2.1 Application Areas and Scenarios 2.2 Event Detection and Spatial and Time Random Process Estimation 2.3 The Hybrid Hierarchical Architecture 3. Channel Modelling 3.1 Introduction 3.2 Basics of Electro-Magnetic Propagation 3.3 Experimental Activity Aimed at Modelling the Wireless Channel at 2.4 GHz for WSANs 4. Connectivity and Coverage 4.1 Introduction 4.2 Connectivity in Wireless Ad Hoc and Sensor Networks 4.3 Link Connectivity 4.4 Single-hop Link Connectivity in WSNs 4.5 Multi-hop Link Connectivity in WSNs 4.6 Characterization of the Interference 4.7 Network Connectivity 4.8 Network Connectivity for WSANs 4.9 Alternate Models for Network Connectivity 4.10 Coverage vs Energy Efficiency 4.11 Further Reading 5. Network Lifetime 5.1 Definition of Node Lifetime 5.2 Definitions of Network Lifetime 5.3 Communication Protocols and Network Lifetime: How to Choose 5.4 Some Numerical Examples 6. Technologies for WSANs 6.1 ZigBee Technology 6.2 Ultrawide Bandwidth Technology 6.3 Bluetooth Technology 6.4 Comparison Among Technologies 7. Communication Protocols for WSANs 7.1 Introduction 7.2 MAC Protocols 7.3 Routing Protocols 8. Localisation and Time Synchronisation Techniques for WSANs 8.1 Introduction 8.2 Time Measurements 8.3 Distance Measurements 8.4 Position Estimation 8.5 Anchor-free Localization 8.6 Position Tracking 8.7 Time Synchronization 9. Signal Processing and Data Fusion Techniques for WSANs 9.1 Distributed Detection 9.2 Distributed Scalar Field Estimation 9.3 Compression Techniques for WSNs 9.4 A Possible Classification of Signal Processing Techniques for WSNs 10. Case Studies 10.1 The EYES Project 10.2 The Ambient Network Project 10.3 Wireless Lamp Control System 10.4 Experimental Multiuser Indoor Localization Platform Based on WSN 10.5 A Positioning Test-bed Using UWB Devices 10.6 Development of a Multi-Hop IEEE802.15.4 Network
Wireless Sensor and Actuator Networks: Technologies, Analysis and Design
MAZZINI, Gianluca;CONTI, Andrea
2008
Abstract
Contents 1. Introduction 1.1 Introduction 1.2 What is a WSAN? 1.3 Main Features of WSANs 1.4 Practical Issues of WSANs Related to Energy Management 1.5 Current and Future Research on WSANs 2. Applications of WSANs 2.1 Application Areas and Scenarios 2.2 Event Detection and Spatial and Time Random Process Estimation 2.3 The Hybrid Hierarchical Architecture 3. Channel Modelling 3.1 Introduction 3.2 Basics of Electro-Magnetic Propagation 3.3 Experimental Activity Aimed at Modelling the Wireless Channel at 2.4 GHz for WSANs 4. Connectivity and Coverage 4.1 Introduction 4.2 Connectivity in Wireless Ad Hoc and Sensor Networks 4.3 Link Connectivity 4.4 Single-hop Link Connectivity in WSNs 4.5 Multi-hop Link Connectivity in WSNs 4.6 Characterization of the Interference 4.7 Network Connectivity 4.8 Network Connectivity for WSANs 4.9 Alternate Models for Network Connectivity 4.10 Coverage vs Energy Efficiency 4.11 Further Reading 5. Network Lifetime 5.1 Definition of Node Lifetime 5.2 Definitions of Network Lifetime 5.3 Communication Protocols and Network Lifetime: How to Choose 5.4 Some Numerical Examples 6. Technologies for WSANs 6.1 ZigBee Technology 6.2 Ultrawide Bandwidth Technology 6.3 Bluetooth Technology 6.4 Comparison Among Technologies 7. Communication Protocols for WSANs 7.1 Introduction 7.2 MAC Protocols 7.3 Routing Protocols 8. Localisation and Time Synchronisation Techniques for WSANs 8.1 Introduction 8.2 Time Measurements 8.3 Distance Measurements 8.4 Position Estimation 8.5 Anchor-free Localization 8.6 Position Tracking 8.7 Time Synchronization 9. Signal Processing and Data Fusion Techniques for WSANs 9.1 Distributed Detection 9.2 Distributed Scalar Field Estimation 9.3 Compression Techniques for WSNs 9.4 A Possible Classification of Signal Processing Techniques for WSNs 10. Case Studies 10.1 The EYES Project 10.2 The Ambient Network Project 10.3 Wireless Lamp Control System 10.4 Experimental Multiuser Indoor Localization Platform Based on WSN 10.5 A Positioning Test-bed Using UWB Devices 10.6 Development of a Multi-Hop IEEE802.15.4 NetworkI documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
