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Ultra-Low Energy Wireless Sensor Networks in Practice
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Theory, Realization and Deployment
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Artikel-Nr:
9780470057865
Veröffentl:
2008
Erscheinungsdatum:
01.02.2008
Seiten:
396
Autor:
Mauri Kuorilehto
Gewicht:
848 g
Format:
246x176x28 mm
Sprache:
Englisch
Beschreibung:
Timo D. Hämäläinen is Professor and Institute Vice President at Tampere University of Technology, Finland. Timo acted as a senior research scientist and project manager at TUT from 1997 2001. In 2001 he was nominated full professor at TUT/Institute of Digital and Computer Systems. He heads the DACI research group that focuses on three main lines: wireless local area networking and wireless sensor networks, high performance DSP/HW based video encoding, and interconnection networks with design flow tools for heterogeneous SoC platforms. He has published over 30 refereed international journals and over 150 conference publications. Marko Hännikäinen is Senior Research Scientist and Mauri Kuorilehto, Mikko Kohvakka, Jukka Suhonen, Panu Hämäläinen are all Research Scientists at Tampere University of Technology, Finland.
Finally a book on Wireless Sensor Networks that covers real world applications and contains practical advice!
Kuorilehto et al. have written the first practical guide to wireless sensor networks. The authors draw on their experience in the development and field-testing of autonomous wireless sensor networks (WSNs) to offer a comprehensive reference on fundamentals, practical matters, limitations and solutions of this fast moving research area.
Ultra Low Energy Wireless Sensor Networks in Practice:
* Explains the essential problems and issues in real wireless sensor networks, and analyzes the most promising solutions.
* Provides a comprehensive guide to applications, functionality, protocols, and algorithms for WSNs.
* Offers practical experiences from new applications and their field-testing, including several deployed networks.
* Includes simulations and physical measurements for energy consumption, bit rate, latency, memory, and lifetime.
* Covers embedded resource-limited operating systems, middleware and application software.
Ultra Low Energy Wireless Sensor Networks in Practice will prove essential reading for Research Scientists, advanced students in Networking, Electrical Engineering and Computer Science as well as Product Managers and Design Engineers.
Kuorilehto et al. have written the first practical guide to wireless sensor networks. The authors draw on their experience in the development and field-testing of autonomous wireless sensor networks (WSNs) to offer a comprehensive reference on fundamentals, practical matters, limitations and solutions of this fast moving research area.
Ultra Low Energy Wireless Sensor Networks in Practice:
* Explains the essential problems and issues in real wireless sensor networks, and analyzes the most promising solutions.
* Provides a comprehensive guide to applications, functionality, protocols, and algorithms for WSNs.
* Offers practical experiences from new applications and their field-testing, including several deployed networks.
* Includes simulations and physical measurements for energy consumption, bit rate, latency, memory, and lifetime.
* Covers embedded resource-limited operating systems, middleware and application software.
Ultra Low Energy Wireless Sensor Networks in Practice will prove essential reading for Research Scientists, advanced students in Networking, Electrical Engineering and Computer Science as well as Product Managers and Design Engineers.
This text is the first comprehensive practical guide to wireless sensor networks. The authors draw on their experience in the development and field testing of autonomous wireless sensor networks to offer a guide to fundamentals, practical matters, limitations and solutions.
Preface
I INTRODUCTION
1 Introduction
1.1 TUTWSN
1.2 Contents of the Book
II DESIGN SPACE OF WSNS
2 WSN Properties
2.1 Characteristics of WSNs
2.2 WSN Applications
2.3 Requirements for WSNs
3 Standards and Proposals
3.1 Standards
3.2 Variations of Standards
4 Sensor Node Platforms
4.1 Platform Components
4.2 Existing Platforms
4.3 TUTWSN Platforms
4.4 Antenna Design
5 Design of WSNs
5.1 Design Dimensions
5.2 WSN Design Flow
5.3 Related Research on WSN Design
5.4 WSN Evaluation Methods
5.5 WSN Evaluation Tools
III WSN PROTOCOL STACK
6 Protocol Stack Overview
6.1 Outline of WSN Stack
7 MAC Protocols
7.1 Requirements
7.2 General Medium Access Control (MAC) Approaches
7.3 WSN MAC Protocols
8 Routing Protocols
8.1 Requirements
8.2 Classifications
8.3 Operation Principles
8.4 Summary
9 Middleware and Application Layer
9.1 Motivation and Requirements
9.2 WSN Middleware Approaches
9.3 WSN Middleware Proposals
10 Operating Systems
10.1 Motivation and Requirements
10.2 Existing OSs
11 QoS Issues in WSN
11.1 Traditional QoS
11.2 Unique Requirements in WSNs
11.3 Parameters Defining WSN QoS
11.4 QoS Support in Protocol Layers
11.5 Summary
12 Security in WSNs
12.1 WSN Security Threats and Countermeasures
12.2 Security Architectures for WSNs
12.3 Key Distribution in WSNs
12.4 Summary of WSN Security Considerations
IV TUTWSN
13 TUTWSN MAC Protocol
13.1 Network Topology
13.2 Channel Access
13.3 Frequency Division
13.4 Advanced Mobility Support
13.5 Advanced Support for Bursty Traffic
13.6 TUTWSN MAC Optimization
13.6.1 Reducing radio requirements
13.6.2 Network beacon rate optimization
13.7 TUTWSN MAC Implementation
13.8 Measured Performance of TUTWSN MAC
14 TUTWSN Routing Protocol
14.1 Design and Implementation
14.2 Related Work
14.3 Cost-Aware Routing
14.4 Implementation
14.5 Measurement Results
15 TUTWSN API
15.1 Design of TUTWSN API
15.2 TUTWSN API Implementation
15.3 TUTWSN API Evaluation
16 TUTWSN SensorOS
16.1 SensorOS Design
16.2 SensorOS Implementation
16.3 SensorOS Performance Evaluation
16.4 Lightweight Kernel Configuration
16.5 SensorOS Bootloader Service
17 Cross-Layer Issues in TUTWSN 213
17.1 Cross-layer Node Configuration
17.2 Piggybacking Data
17.3 Self-configuration with Cross-layer Information
18 Protocol Analysis Models
18.1 PHY Power Analysis
18.2 Radio Energy Models
18.3 Contention Models
18.4 Node Operation Models
18.5 Summary
19 WISENES Design and Evaluation Environment
19.1 Features
19.2 WSN Design with WISENES
19.3 WISENES Framework
19.4 Existing WISENES Designs
19.5 WISENES Simulation Results
V DEPLOYMENT
20 TUTWSN Deployments
20.1 TUTWSN Deployment Architecture
20.2 Network Self-diagnostics
20.3 Security Experiments
I INTRODUCTION
1 Introduction
1.1 TUTWSN
1.2 Contents of the Book
II DESIGN SPACE OF WSNS
2 WSN Properties
2.1 Characteristics of WSNs
2.2 WSN Applications
2.3 Requirements for WSNs
3 Standards and Proposals
3.1 Standards
3.2 Variations of Standards
4 Sensor Node Platforms
4.1 Platform Components
4.2 Existing Platforms
4.3 TUTWSN Platforms
4.4 Antenna Design
5 Design of WSNs
5.1 Design Dimensions
5.2 WSN Design Flow
5.3 Related Research on WSN Design
5.4 WSN Evaluation Methods
5.5 WSN Evaluation Tools
III WSN PROTOCOL STACK
6 Protocol Stack Overview
6.1 Outline of WSN Stack
7 MAC Protocols
7.1 Requirements
7.2 General Medium Access Control (MAC) Approaches
7.3 WSN MAC Protocols
8 Routing Protocols
8.1 Requirements
8.2 Classifications
8.3 Operation Principles
8.4 Summary
9 Middleware and Application Layer
9.1 Motivation and Requirements
9.2 WSN Middleware Approaches
9.3 WSN Middleware Proposals
10 Operating Systems
10.1 Motivation and Requirements
10.2 Existing OSs
11 QoS Issues in WSN
11.1 Traditional QoS
11.2 Unique Requirements in WSNs
11.3 Parameters Defining WSN QoS
11.4 QoS Support in Protocol Layers
11.5 Summary
12 Security in WSNs
12.1 WSN Security Threats and Countermeasures
12.2 Security Architectures for WSNs
12.3 Key Distribution in WSNs
12.4 Summary of WSN Security Considerations
IV TUTWSN
13 TUTWSN MAC Protocol
13.1 Network Topology
13.2 Channel Access
13.3 Frequency Division
13.4 Advanced Mobility Support
13.5 Advanced Support for Bursty Traffic
13.6 TUTWSN MAC Optimization
13.6.1 Reducing radio requirements
13.6.2 Network beacon rate optimization
13.7 TUTWSN MAC Implementation
13.8 Measured Performance of TUTWSN MAC
14 TUTWSN Routing Protocol
14.1 Design and Implementation
14.2 Related Work
14.3 Cost-Aware Routing
14.4 Implementation
14.5 Measurement Results
15 TUTWSN API
15.1 Design of TUTWSN API
15.2 TUTWSN API Implementation
15.3 TUTWSN API Evaluation
16 TUTWSN SensorOS
16.1 SensorOS Design
16.2 SensorOS Implementation
16.3 SensorOS Performance Evaluation
16.4 Lightweight Kernel Configuration
16.5 SensorOS Bootloader Service
17 Cross-Layer Issues in TUTWSN 213
17.1 Cross-layer Node Configuration
17.2 Piggybacking Data
17.3 Self-configuration with Cross-layer Information
18 Protocol Analysis Models
18.1 PHY Power Analysis
18.2 Radio Energy Models
18.3 Contention Models
18.4 Node Operation Models
18.5 Summary
19 WISENES Design and Evaluation Environment
19.1 Features
19.2 WSN Design with WISENES
19.3 WISENES Framework
19.4 Existing WISENES Designs
19.5 WISENES Simulation Results
V DEPLOYMENT
20 TUTWSN Deployments
20.1 TUTWSN Deployment Architecture
20.2 Network Self-diagnostics
20.3 Security Experiments
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