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Wireless sensor systems for extreme environments : space, underwater, underground and industrial / edited by Habib F. Rashvand, Ali Abedi.

Contributor(s): Rashvand, Habib F [editor.] | Abedi, Ali [editor.].
Material type: materialTypeLabelBookPublisher: Hoboken, NJ : Wiley, 2017Description: 1 online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9781119126492; 1119126495; 9781119126478; 1119126479.Subject(s): Wireless sensor networks | Extreme environments | COMPUTERS / Computer Literacy | COMPUTERS / Computer Science | COMPUTERS / Data Processing | COMPUTERS / Hardware / General | COMPUTERS / Information Technology | COMPUTERS / Machine Theory | COMPUTERS / Reference | Extreme environments | Wireless sensor networksGenre/Form: Electronic books.DDC classification: 004.6 Online resources: Wiley Online Library
Contents:
Cover; Title Page; Copyright; Contents; List of Contributors; Preface; Part I Wireless Sensor Systems for Extreme Environments-Generic Solutions; Chapter 1 Wireless Sensor Systems for Extreme Environments; 1.1 Introduction; 1.2 Wireless Sensor Systems for Space and other Extreme Environments; 1.2.1 Definitions; 1.2.2 Networking in Space and Extreme Environments; 1.2.3 Node Synchronization in SEEs; 1.2.4 Spectrum Sharing in SEEs; 1.2.5 Energy Aspects in SEE; 1.3 Chapter Abstracts; 1.3.1 Abstract of Chapter 2; 1.3.2 Abstract of Chapter 3; 1.3.3 Abstract of Chapter 4; 1.3.4 Abstract of Chapter 5
1.3.5 Abstract of Chapter 61.3.6 Abstract of Chapter 7; 1.3.7 Abstract of Chapter 8; 1.3.8 Abstract of Chapter 9; 1.3.9 Abstract of Chapter 10; 1.3.10 Abstract of Chapter 11; 1.3.11 Abstract of Chapter 12; 1.3.12 Abstract of Chapter 13; 1.3.13 Abstract of Chapter 14; 1.3.14 Abstract of Chapter 15; 1.3.15 Abstract of Chapter 16; 1.3.16 Abstract of Chapter 17; 1.3.17 Abstract of Chapter 18; 1.3.18 Abstract of Chapter 19; 1.3.19 Abstract of Chapter 20; 1.3.20 Abstract of Chapter 21; Reference; Chapter 2 Feedback Control Challenges with Wireless Networks in Extreme Environments; 2.1 Introduction
2.2 Controllers in Extreme Environments2.2.1 Case Study: Wireless Sensor Networks in Extreme Environments; 2.3 System Dynamics and Control Design Fundamentals; 2.3.1 System Dynamics; 2.3.2 Classical Control System Design; 2.4 Feedback Control Challenges when using Wireless Networks; 2.4.1 Approximated Model of Delay; 2.4.2 Effect of Delay on the Stability of a First-order System; 2.4.2.1 Multi-sensor Systems; 2.5 Effect of Delay on the Transient Response of a Second-order System; 2.6 Discussion; 2.7 Summary; References
Chapter 3 Optimizing Lifetime and Power Consumption for Sensing Applications in Extreme Environments3.1 Introduction; 3.1.1 Mathematical Notation; 3.2 Overview and Technical System Description; 3.3 Power and Lifetime Optimization; 3.3.1 The Optimization Problem; 3.3.2 Theoretical and Practical Solutions; 3.3.3 More Practical Solutions; 3.4 Visualization and Numerical Results; 3.4.1 Comparison of (3.14) with (3.13); 3.4.2 Comparison of (3.16) with (3.13) and (3.14); 3.5 Application of Power Control in Extreme Environments; 3.6 Summary; References
Chapter 4 On Improving Connectivity-based Localization in Wireless Sensor Networks4.1 Introduction; 4.2 Connectivity-based Localization in One-hop Networks; 4.2.1 The Centroid Algorithm; 4.2.2 Improved Centroid Algorithms; 4.3 Connectivity-based Localization in Multi-hop Networks; 4.3.1 The DV-hop Algorithm; 4.3.2 Mathematics of Hop-count-based Localization; 4.4 On Improving Connectivity-based Localization; 4.4.1 Improvements by Adjusting Correction Factor; 4.4.2 Improvements by Exploiting Neighborhood Information; 4.5 Summary; References
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Online resource; title from PDF title page (EBSCO, viewed June 23, 2017)

Includes bibliographical references and index.

Cover; Title Page; Copyright; Contents; List of Contributors; Preface; Part I Wireless Sensor Systems for Extreme Environments-Generic Solutions; Chapter 1 Wireless Sensor Systems for Extreme Environments; 1.1 Introduction; 1.2 Wireless Sensor Systems for Space and other Extreme Environments; 1.2.1 Definitions; 1.2.2 Networking in Space and Extreme Environments; 1.2.3 Node Synchronization in SEEs; 1.2.4 Spectrum Sharing in SEEs; 1.2.5 Energy Aspects in SEE; 1.3 Chapter Abstracts; 1.3.1 Abstract of Chapter 2; 1.3.2 Abstract of Chapter 3; 1.3.3 Abstract of Chapter 4; 1.3.4 Abstract of Chapter 5

1.3.5 Abstract of Chapter 61.3.6 Abstract of Chapter 7; 1.3.7 Abstract of Chapter 8; 1.3.8 Abstract of Chapter 9; 1.3.9 Abstract of Chapter 10; 1.3.10 Abstract of Chapter 11; 1.3.11 Abstract of Chapter 12; 1.3.12 Abstract of Chapter 13; 1.3.13 Abstract of Chapter 14; 1.3.14 Abstract of Chapter 15; 1.3.15 Abstract of Chapter 16; 1.3.16 Abstract of Chapter 17; 1.3.17 Abstract of Chapter 18; 1.3.18 Abstract of Chapter 19; 1.3.19 Abstract of Chapter 20; 1.3.20 Abstract of Chapter 21; Reference; Chapter 2 Feedback Control Challenges with Wireless Networks in Extreme Environments; 2.1 Introduction

2.2 Controllers in Extreme Environments2.2.1 Case Study: Wireless Sensor Networks in Extreme Environments; 2.3 System Dynamics and Control Design Fundamentals; 2.3.1 System Dynamics; 2.3.2 Classical Control System Design; 2.4 Feedback Control Challenges when using Wireless Networks; 2.4.1 Approximated Model of Delay; 2.4.2 Effect of Delay on the Stability of a First-order System; 2.4.2.1 Multi-sensor Systems; 2.5 Effect of Delay on the Transient Response of a Second-order System; 2.6 Discussion; 2.7 Summary; References

Chapter 3 Optimizing Lifetime and Power Consumption for Sensing Applications in Extreme Environments3.1 Introduction; 3.1.1 Mathematical Notation; 3.2 Overview and Technical System Description; 3.3 Power and Lifetime Optimization; 3.3.1 The Optimization Problem; 3.3.2 Theoretical and Practical Solutions; 3.3.3 More Practical Solutions; 3.4 Visualization and Numerical Results; 3.4.1 Comparison of (3.14) with (3.13); 3.4.2 Comparison of (3.16) with (3.13) and (3.14); 3.5 Application of Power Control in Extreme Environments; 3.6 Summary; References

Chapter 4 On Improving Connectivity-based Localization in Wireless Sensor Networks4.1 Introduction; 4.2 Connectivity-based Localization in One-hop Networks; 4.2.1 The Centroid Algorithm; 4.2.2 Improved Centroid Algorithms; 4.3 Connectivity-based Localization in Multi-hop Networks; 4.3.1 The DV-hop Algorithm; 4.3.2 Mathematics of Hop-count-based Localization; 4.4 On Improving Connectivity-based Localization; 4.4.1 Improvements by Adjusting Correction Factor; 4.4.2 Improvements by Exploiting Neighborhood Information; 4.5 Summary; References

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