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E-book: Smart Dust: Sensor Network Applications, Architecture and Design

(Florida Atlantic University, Boca Raton, USA), (Florida Atlantic University, Boca Raton, USA)
  • Format: 348 pages
  • Pub. Date: 03-Oct-2018
  • Publisher: CRC Press Inc
  • Language: eng
  • ISBN-13: 9781351838078
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Smart Dust: Sensor Network Applications, Architecture and DesignLarger Image
  • Format: 348 pages
  • Pub. Date: 03-Oct-2018
  • Publisher: CRC Press Inc
  • Language: eng
  • ISBN-13: 9781351838078
Other books in subject:

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Ilyas and Mahgoub, both affiliated with the College of Engineering at Florida Atlantic University, have selected chapters from the Handbook of Sensor Networks to create a reference on the design and performance of smart dust sensor networks. The book focuses on applications, protocols, tracking technologies, data gathering and processing, energy management, and security. The audience for the book includes designers and planners for emerging telecommunication networks. The book can also be used as a test for research-oriented courses that deal with wireless sensor networks. Annotation ©2006 Book News, Inc., Portland, OR (booknews.com)

Sensor networks continue to grow in importance for modern communication networks. The fruit of recent efforts aimed at miniaturization and highly advanced functionality, smart dust sensor networks offer powerful, cost-effective solutions to densely distributed, high-resolution applications. In chapters carefully selected from the popular Handbook of Sensor Networks, Smart Dust: Sensor Network Applications, Architecture, and Design supplies a sharply focused reference on the applications, design, and performance of smart dust that is ideal for specialists in the field.

Providing a succinct survey of the principles and technologies associated with smart dust networks, this book focuses on eight main areas: applications; architecture; protocols; tracking technologies; data gathering and processing; energy management; security, reliability, and fault tolerance; and performance and design aspects. Following a look at the opportunities and challenges facing the field, expert contributors authoritatively cover sensor network management, miniaturizing sensor networks with MEMS, sensor network architecture, energy-efficient technologies, positioning and tracking, comparison of cooperative computing in sensor networks, dynamic power management, low-power design for smart dust networks, and more.

Smart Dust: Sensor Network Applications, Architecture, and Design details the applications and technologies that are at the frontier of modern sensor networks. It is an ideal reference for anyone interested in designing, planning, or building emerging sensor and communications networks.
Opportunities and Challenges in Wireless Sensor Networks
Martin Haenggi
Introduction
1(1)
Opportunities
2(2)
Growing Research and Commercial Interest
Applications
Technical Challenges
4(7)
Performance Metrics
Power Supply
Design of Energy-Efficient Protocols
Capacity/Throughput
Routing
Channel Access and Scheduling
Modeling
Connectivity
Quality of Service
Security
Implementation
Other Issues
Concluding Remarks
11
Next-Generation Technologies to Enable Sensor Networks
Joel I. Goodman
Albert I. Reuther
David R. Martinez
Introduction
1(4)
Geolocation and Identification of Mobile Targets
Long-Term Architecture
Goals for Real-Time Distributed Network Computing for Sensor Data Fusion
5(1)
The Convergence of Networking and Real-Time Computing
6(5)
Guaranteeing Network Resources
Guaranteeing Storage Buffer Resources
Guaranteeing Computational Resources
Middleware
11(1)
Control and Command of System
Parallel Processing
Network Resource Management
11(5)
Graph Generator
Metrics Object
Graph Search
NRM Agents
Sensor Interface
Mapping Database
Topology Database
NRM Federation
NRM Fault Tolerance
Experimental Results
16
Sensor Network Management
Linnyer Beatrys Ruiz
Jose Marcos Nogueira
Antonio A. F. Loureiro
Introduction
1(1)
Management Challenges
2(1)
Management Dimensions
3(12)
Dimensions for WSN Management
Management Levels
WSN Functionalities
Management Functional Areas
MANNA as an Integrating Architecture
15(10)
Management Services, Functions, and Models
Functional Architecture
Information Architecture
Physical Architecture
Putting It All Together
25(1)
Conclusion
25
Models for Programmability in Sensor Networks
Athanassios Boulis
Introduction
1(1)
Differences between Sensor Networks and Traditional Data Networks
2(1)
Aspects of Efficient Sensor Network Applications
2(1)
Need for Sensor Network Programmability
3(1)
Major Models for System-Level Programmability
4(2)
Database Model
Active Sensor Model
Active Networks---Mobile Agents
Frameworks for System-Level Programmability
6(6)
Directed Diffusion with In-Network Processing
Cougar
TinyDB
SQTL
Smart Messages---Spatial Programming
Mate
SensorWare
MagnetOS
DFuse
Conclusions
12
Miniaturizing Sensor Networks with MEMS
Brett Warneke
Introduction
1(1)
MEMS Basics
2(2)
Micromachine Fabrication Techniques
Highly Integrated Processes
Sensors
4(1)
Selection Criteria
Integrated Circuit Sensors
Nanosensors
Communication
5(5)
RF Communication
Optical Communication
Micropower Sources
10(2)
Energy Storage
Energy Harvesting
Packaging
12(1)
Systems
13(2)
Conclusion
15
Sensor Network Architecture and Applications
Chien-Chung Shen
Chaiporn Jaikaeo
Chavalit Srisathapornphat
Introduction
1(1)
Sensor Network Applications
1(2)
Querying Applications
Tasking Applications
Functional Architecture for Sensor Networks
3(1)
Sample Implementation Architectures
4(8)
SINA (Sensor Information Networking Architecture)
TopDisc (Topology Discovery for Sensor Networks)
Summary
12
A Practical Perspective on Wireless Sensor Networks
Quanhong Wang
Hossam Hassanein
Kenan Xu
Introduction
1(1)
WSN Applications
2(4)
Military Applications
Environment Detection and Monitoring
Disaster Prevention and Relief
Medical Care
Home Intelligence
Scientific Exploration
Interactive Surroundings
Surveillance
Other Applications
Classification of WSNs
6(1)
Characteristics, Technical Challenges, and Design Directions
7(4)
Characteristics
Technical Challenges and Requirements
Design Objectives and Directions
Technical Approaches
11(11)
Hardware Techniques
System Architecture, Protocols, and Algorithms
Software Development
Conclusions and Considerations for Future Research
22
Sensor Network Architecture
Jessica Feng
Farinaz Koushanfar
Miodrag Potkonjak
Overview
1(1)
Motivation and Objectives
1(2)
SNs---Global View and Requirements
3(1)
Individual Components of SN Nodes
4(4)
Processor
Storage
Power Supply
Sensors
Radio
Sensor Network Node
8(5)
Berkeley Mote Node
UCLA Medusa MK-2 Node
BWRC PicoNode
Sensor-Centric Design: Light Compass
Wireless SNs as Embedded Systems
13(3)
Summary
16
Power-Efficient Topologies for Wireless Sensor Networks
Ayad Salhieh
Loren Schwiebert
Motivation
1(1)
Background
2(1)
Issues for Topology Design
3(5)
Three-Neighbors WSN
Four-Neighbors WSN
Five-Neighbors WSN
Six-Neighbors WSN
Seven-Neighbors WSN
Eight-Neighbors WSN
Six-Neighbors for Three Dimensions
Assumptions
8(2)
Calculation of Power Usage for Each Path
Analysis of Power Usage
10(3)
Two-Dimensional Analysis
Three-Dimensional Analysis
Directional Source-Aware Routing Protocol (DSAP)
13(2)
DSAP Analysis
15(4)
Two-Dimension Analysis
Three-Dimension Analysis
Summary
19
Overview of Communication Protocols for Sensor Networks
Weilian Su
Erdal Cayirci
Ozgur B. Akan
Introduction
1(1)
Applications/Application Layer Protocols
2(2)
Sensor Network Applications
Application Layer Protocols
Localization Protocols
4(1)
Time Synchronization Protocols
5(2)
Transport Layer Protocols
7(2)
Event-to-Sink Transport
Sink-to-Sensors Transport
Network Layer Protocols
9(2)
Data Link Layer Protocols
11(3)
Medium Access Control
Error Control
Conclusion
14
Positioning and Location Tracking in Wireless Sensor Networks
Yu-Chee Tseng
Chi-Fu Huang
Sheng-Po Kuo
Introduction
1(1)
Fundamentals
2(2)
ToA, TDoA, and AoA
Positioning by Signal Strength
Positioning and Location Tracking Algorithms
4(6)
Trilateration
Multilateration
Pattern Matching
Location Tracking
Network-Based Tracking
Experimental Location Systems
10(2)
Active Badge and Bat
Cricket
Radar and Nibble
CSIE/NCTU Indoor Tour Guide
Conclusions
12
Comparison of Data Processing Techniques in Sensor Networks
Vicente Gonzalez-Millan
Enrique Sanchis-Peris
Sensor Networks: Organization and Processing
1(2)
Evolution of Sensor Systems
Sensor Processing Systems
Architectures for Sensor Integration
3(15)
Problems with High Data Rate
Introduction of Preprocessing Elements
Example of Architecture Evaluation in High-Energy Physics
18
Cooperative Computing in Sensor Networks
Liviu Iftode
Cristian Borcea
Porlin Kang
Introduction
1(2)
The Cooperative Computing Model
3(1)
Node Architecture
4(1)
Admission Manager
Code Cache
Virtual Machine
Tag Space
Smart Messages
5(2)
Smart Message Life Cycle
Smart Message Self-Routing
Programming Interface
7(1)
Prototype Implementation and Evaluation
8(4)
Cost of SM Migration
Cost of Tag Space Operations
Applications
12(2)
Spin Using Smart Messages
Directed Diffusion Using Smart Messages
Simulation Results
14(1)
Related Work
15(3)
Conclusions
18
Dynamic Power Management in Sensor Networks
Amit Sinha
Anantha Chandrakasan
Introduction
1(1)
Idle Power Management
2(3)
Multiple Shutdown States
Sensor Node Architecture
Sleep State Transition Policy
Active Power Management
5(1)
Variable Voltage Processing
System Implementation
6(6)
DVS Circuit
Idle Power Management Hooks
Processor Power Modes
OS Architecture
Sensor-Specific Application Programming Interface Extensions
Results
12
Design Challenges in Energy-Efficient Medium Access Control for Wireless Sensor Networks
Duminda Dewasurendra
Amitabh Mishra
Introduction
1(1)
Unique Characteristics of Wireless Sensor Networks
2(2)
Why Are MAC Layer Design Issues Important?
MAC Protocols for Wireless Ad Hoc Networks
4(6)
IEEE 802.11
Bluetooth
Energy-Conserving Medium Access Control (EC-MAC) Protocol for Wireless ATM Networks
Power-Aware Multiple Access (PAMAS) Protocol
Design Challenges for Wireless Sensor Networks
10(3)
Why Existing Methods for Wireless Ad Hoc Networks Cannot Be Used
Communication and Application Types in Sensor Networks
Medium Access Protocols for Wireless Sensor Networks
13(9)
Sensor MAC (SMAC)
Self-Organizing MAC for Sensor Networks (SMACS) and Eavesdrop and Register (EAR) Algorithms
Traffic Adaptive Medium Access Protocol (TRAMA)
Power-Efficient and Delay-Aware Medium-Access Protocol for Sensor Networks (PEDAMACS)
Comparison
Open Issues
22(2)
Conclusions
24
Security and Privacy Protection in Wireless Sensor Networks
Sasha Slijepcevic
Jennifer L. Wong
Miodrag Potkonjak
Introduction
1(1)
Unique Security Challenges in Sensor Networks and Enabling Mechanisms
2(2)
Security-Related Properties
System-Level Security
Mobile Code
Metering
Security Architectures
4(7)
Cell-Based WSNs
Ad Hoc Sensor Networks
Privacy Protection
11(4)
Principle of Minimal Generalization
Privacy of Location Information
Conclusion
15
Low-Power Design for Smart Dust Networks
Zdravko Karakehayov
Introduction
1(1)
Location
1(1)
Sensing
2(1)
Computation
2(3)
Asynchronous Processors
Variable-Frequency Processors
Variable-Voltage Processors
Hardware-Software Interaction
5(2)
Communication
7(3)
Mote-to-Mote Communication
Mote-to-Central Station Communication
Orientation
10(1)
Conclusion
10
Index 1


Mohammad Ilyas, Imad Mahgoub
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