This book will serve as a reference, presenting state-of-the-art research on theoretical aspects of optimal sensor coverage problems. Readers will find it a useful tool for furthering developments on theory and applications of optimal coverage; much of the content can serve as material for advanced topics courses at the graduate level. The book is well versed with the hottest research topics such as Lifetime of Coverage, Weighted Sensor Cover, k-Coverage, Heterogeneous Sensors, Barrier, Sweep and Partial Coverage, Mobile Sensors, Camera Sensors and Energy-Harvesting Sensors, and more. Topics are introduced in a natural order from simple covers to connected covers, to the lifetime problem. Later, the book begins revisiting earlier problems ranging from the introduction of weights to coverage by k sensors and partial coverage, and from sensor heterogeneity to novel problems such as the barrier coverage problem. The book ends with coverage of mobile sensors, camera sensors, energy-harvesting sensors, underwater sensors, and crowdsensing.
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The book is well versed with the hottest research topics such as Lifetime of Coverage, Weighted Sensor Cover, k-Coverage, Heterogeneous Sensors, Barrier, Sweep and Partial Coverage, Mobile Sensors, Camera Sensors and Energy-Harvesting Sensors, and more.
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Preface.- 1. Introduction.- 2. Sensor Cover.- 3. Connected Sensor Cover.- 4.  lifetime of Coverage.- 5. Weighted Sensor Cover.- 6. k-Coverage.- 7. Heterogeneous Sensors.- 8. Barrier Coverage.-  9. Sweep-Coverage.- 10. Partial Coverage.- 11. Mobile Sensors.- 12. Camera Sensors.- Energy-Harvesting Sensors.- Underwater Sensor.- Crowdsensing.- Bibliography.
Les mer
This book will serve as a reference, presenting state-of-the-art research on theoretical aspects of optimal sensor coverage problems. Readers will find it a useful tool for furthering developments on theory and applications of optimal coverage; much of the content can serve as material for advanced topics courses at the graduate level. The book is well versed with the hottest research topics such as Lifetime of Coverage, Weighted Sensor Cover, k-Coverage, Heterogeneous Sensors, Barrier, Sweep and Partial Coverage, Mobile Sensors, Camera Sensors and Energy-Harvesting Sensors, and more. Topics are introduced in a natural order from simple covers to connected covers, to the lifetime problem. Later, the book begins revisiting earlier problems ranging from the introduction of weights to coverage by k sensors and partial coverage, and from sensor heterogeneity to novel problems such as the barrier coverage problem. The book ends with coverage of mobile sensors, camera sensors, energy-harvesting sensors, underwater sensors, and crowdsensing.
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“‘Optimal Coverage in wireless sensor networks’ is an highly interesting source of information on theoretical aspects of optimal sensor networks coverage and connectivity problems. Without doubt it can be suggested as a reference textbook, presenting mainly theoretical but also partially practical problems being currently hot research subjects.” (Józef Woźniak, zbMATH 1486.90002, 2022)
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Much of the content can serve as material for advanced topics courses at the graduate level Emphasizes theoretical development in the study of solutions or approximation solutions for optimization problems on coverage of wireless sensor networks Useful tool in furthering developments on theory and applications of optimal coverage
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Produktdetaljer

ISBN
9783030528225
Publisert
2020-10-01
Utgiver
Vendor
Springer Nature Switzerland AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet