Dargie, Waltenegus
Fundamentals of Wireless Sensor Networks : Theory and Networks - New Delhi Wiley India Pvt. Ltd. India 2014,c2010 - 311
The Anatomy of Wireless Sensor Networks provides readers with an in-depth discussion of what wireless sensor networks are their practical applications and their anatomy.  The anatomy of wireless sensor networks explained using a multidimensional approach. The first dimension focuses on wireless sensor nodes. The second dimension focuses on the networking aspect of WSNs and offers a comparison with the OSI model. The layers discussed within the ‘networking' section include the physical layer, the medium access layer, the network layer, the transportation layer and the application layer. The third dimension addresses the management aspect at various layers, focusing on power management, mobility management, time synchronization, task management and security.
Contents
About the Series Editors
Preface
Part One: Introduction
1 Motivation for a Network of Wireless Sensor Nodes
1.1 Definitions and Background
1.2 Challenges and Constraints
2 Applications
2.1 Structural Health Monitoring
2.2 Traffic Control
2.3 Health Care
2.4 Pipeline Monitoring
2.5 Precision Agriculture
2.6 Active Volcano
2.7 Underground Mining
3 Node Architecture
3.1 The Sensing Subsystem
3.2 The Processor Subsystem
3.3 Communication Interfaces
3.4 Prototypes
4 Operating Systems
4.1 Functional Aspects
4.2 Nonfunctional Aspects
4.3 Prototypes
4.4 Evaluation
Part Two: Basic Architectural Framework
5 Physical Layer
5.1 Basic Components
5.2 Source Encoding
5.3 Channel Encoding
5.4 Modulation
6 Medium Access Control
6.1 Overview
6.2 Wireless MAC Protocols
6.3 Characteristics of MAC Protocols in Sensor Networks
6.4 Contention-Free MAC Protocols
6.5 Contention-Based MAC Protocols
6.6 Hybrid MAC Protocols
6.7 Summary
7 Network Layer
7.1 Overview
7.2 Routing Metrics
7.3 Flooding and Gossiping
7.4 Data-Centric Routing
7.5 Proactive Routing
7.6 On-Demand Routing
7.7 Hierarchical Routing
7.8 Location-Based Routing
7.9 QoS-Based Routing Protocols
7.10 Summary
Part Three: Node and Network Management
8 Power Management
8.1 Local Power Management Aspects
8.2 Dynamic Power Management
8.3 Conceptual Architecture
9 Time Synchronization
9.1 Clocks and the Synchronization Problem
9.2 Time Synchronization in Wireless Sensor Networks
9.3 Basics of Time Synchronization
9.4 Time Synchronization Protocols
10 Localization
10.1 Overview
10.2 Ranging Techniques
10.3 Range-Based Localization
10.4 Range-Free Localization
10.5 Event-Driven Localization
11 Security
11.1 Fundamentals of Network Security
11.2 Challenges of Security in Wireless Sensor Networks
11.3 Security Attacks in Sensor Networks
11.4 Protocols and Mechanisms for Security
11.5 IEEE 802.15.4 and ZigBee Security
11.6 Summary
12 Sensor Network Programming
12.1 Challenges in Sensor Network Programming
12.2 Node-Centric Programming
12.3 Macro programming
12.4 Dynamic Reprogramming
12.5 Sensor Network Simulators
Exercises
References
Index
9788126551255
Allied Informatics, Jaipur
Electronics
681.2 / DAR
Fundamentals of Wireless Sensor Networks : Theory and Networks - New Delhi Wiley India Pvt. Ltd. India 2014,c2010 - 311
The Anatomy of Wireless Sensor Networks provides readers with an in-depth discussion of what wireless sensor networks are their practical applications and their anatomy.  The anatomy of wireless sensor networks explained using a multidimensional approach. The first dimension focuses on wireless sensor nodes. The second dimension focuses on the networking aspect of WSNs and offers a comparison with the OSI model. The layers discussed within the ‘networking' section include the physical layer, the medium access layer, the network layer, the transportation layer and the application layer. The third dimension addresses the management aspect at various layers, focusing on power management, mobility management, time synchronization, task management and security.
Contents
About the Series Editors
Preface
Part One: Introduction
1 Motivation for a Network of Wireless Sensor Nodes
1.1 Definitions and Background
1.2 Challenges and Constraints
2 Applications
2.1 Structural Health Monitoring
2.2 Traffic Control
2.3 Health Care
2.4 Pipeline Monitoring
2.5 Precision Agriculture
2.6 Active Volcano
2.7 Underground Mining
3 Node Architecture
3.1 The Sensing Subsystem
3.2 The Processor Subsystem
3.3 Communication Interfaces
3.4 Prototypes
4 Operating Systems
4.1 Functional Aspects
4.2 Nonfunctional Aspects
4.3 Prototypes
4.4 Evaluation
Part Two: Basic Architectural Framework
5 Physical Layer
5.1 Basic Components
5.2 Source Encoding
5.3 Channel Encoding
5.4 Modulation
6 Medium Access Control
6.1 Overview
6.2 Wireless MAC Protocols
6.3 Characteristics of MAC Protocols in Sensor Networks
6.4 Contention-Free MAC Protocols
6.5 Contention-Based MAC Protocols
6.6 Hybrid MAC Protocols
6.7 Summary
7 Network Layer
7.1 Overview
7.2 Routing Metrics
7.3 Flooding and Gossiping
7.4 Data-Centric Routing
7.5 Proactive Routing
7.6 On-Demand Routing
7.7 Hierarchical Routing
7.8 Location-Based Routing
7.9 QoS-Based Routing Protocols
7.10 Summary
Part Three: Node and Network Management
8 Power Management
8.1 Local Power Management Aspects
8.2 Dynamic Power Management
8.3 Conceptual Architecture
9 Time Synchronization
9.1 Clocks and the Synchronization Problem
9.2 Time Synchronization in Wireless Sensor Networks
9.3 Basics of Time Synchronization
9.4 Time Synchronization Protocols
10 Localization
10.1 Overview
10.2 Ranging Techniques
10.3 Range-Based Localization
10.4 Range-Free Localization
10.5 Event-Driven Localization
11 Security
11.1 Fundamentals of Network Security
11.2 Challenges of Security in Wireless Sensor Networks
11.3 Security Attacks in Sensor Networks
11.4 Protocols and Mechanisms for Security
11.5 IEEE 802.15.4 and ZigBee Security
11.6 Summary
12 Sensor Network Programming
12.1 Challenges in Sensor Network Programming
12.2 Node-Centric Programming
12.3 Macro programming
12.4 Dynamic Reprogramming
12.5 Sensor Network Simulators
Exercises
References
Index
9788126551255
Allied Informatics, Jaipur
Electronics
681.2 / DAR