Advances in remote sensing for infrastructure monitoring / Vernon Singhroy, editor.
Singhroy, Vernon, editor.
2021
TA153
Available Online

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Title Advances in remote sensing for infrastructure monitoring / Vernon Singhroy, editor.
ISBN 9783030591090 (electronic bk.)
3030591093 (electronic bk.)
9783030591083
3030591085
DOI https://doi.org/10.1007/978-3-030-59109-0
Published Cham : Springer, [2021]
Language English
Description 1 online resource (xii, 362 pages) : illustrations (chiefly color)
Other Standard Identifiers 10.1007/978-3-030-59109-0 doi
Call Number TA153
Dewey Decimal Classification 624
Summary This volume provides international case studies of practical and advanced methods using satellite images integrated with other airborne, drone images and field data to monitor infrastructure. The book is timely, as infrastructure spending by national governments is increasing and robust monitoring techniques are needed to keep pace with climate change impacts affecting infrastructures globally. The expert international contributions that comprise the book provide examples of advanced methods using InSAR, high-resolution optical and radar images, LIDAR, UAV, geophysical techniques and their applications to civil infrastructure. The case studies focus on high-resolution, rapid time-series radar interferometry to monitor highways, railways, pipelines, bridges, urban, and water conveyance infrastructures. Other case studies use optical and radar images to characterize urban infrastructure and monitor damages from floods, oil spills and conflicts. The case studies are global focusing in infrastructure projects in Canada, Dominica Guyana, India Italy, Syria Taiwan, United States and the United Kingdom. This compilation of selected case studies will provide useful guidelines to the civil infrastructure characterization and monitoring communities. The book will be of interest to infrastructure consultants and professionals, scientific communities in earth observation and advanced imaging methods, and researchers and professors in earth sciences, climate change, and civil and geoengineering.
Bibliography, etc. Note Includes bibliographical references and index.
Access Note Access limited to authorized users.
Source of Description Online resource; title from PDF title page (SpringerLink, viewed March 2, 2021).
Added Author Singhroy, Vernon, editor.
Series Springer remote sensing/photogrammetry. 2198-0721
Available in Other Form Print version: 9783030591083
Print version: 9783030591106
Print version: 9783030591113
Linked Resources Online Access
Record Appears in Online Resources > Ebooks
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Intro
Preface
Contents
Editor and Contributors
About the Editor
Contributors
Part I: Transportation, Energy and Mining Infrastructure
Chapter 1: Advanced Radar Images for Monitoring Transportation, Energy, Mining and Coastal Infrastructure
1.1 Introduction
InSAR Infrastructure
Sensors for Infrastructure
Optical
UAV
LIDAR
1.2 Transportation Corridors
InSAR Monitoring of a Major Highway Affected by Coastal Landslide
InSAR Monitoring of a Coastal Railway
InSAR Monitoring of a Himalayan Highway and Railway Affected by Monsoons

InSAR Deformation Monitoring Before and After Hurricane Maria, Dominica
1.3 Energy Corridors
InSAR Monitoring of Pipeline Routes
Pipeline on Permafrost Terrain
Pipeline Routes in Steep Mountainous Areas
Pipelines on Wetland Areas
1.4 Mining Infrastructure
InSAR Monitoring of Oil Extraction in Alberta
Monitoring Mining Activities in Guyana
Mineral Exploration Using Radar Image Fusion
1.5 Coastal Infrastructure
Monitoring Coastal Change Using Radar Time Series Images
Oil Spill Monitoring
1.6 Conclusion
References

Chapter 2: InSAR Satellite Surveys: Key Considerations for Monitoring Infrastructure
2.1 Fundamental Concepts
What Is InSAR?
Targets
Coherence
SAR Geometry
InSAR Geometry
Atmospheric Effects
Wavelength
Phase Unwrapping
Resolution
Displacement Sensitivity
Satellite Options
2.2 Case Studies
Seattle Tunnelling
Aqueducts and Aquifers
Northern Alberta: Pipelines
Southwest USA Copper Mine
2.3 Summary
References
Chapter 3: Sentinel-1 InSAR Data for the Continuous Monitoring of Ground Deformation and Infrastructures at Regional Scale

3.1 Introduction
3.2 The Tuscany Region
3.3 The PSI (Persistent Scatterer Interferometry) Technique
3.4 Results at Regional and Local Scale
3.5 The Amerigo Vespucci Freight Terminal
3.6 The Area of Pistoia
3.7 Discussion
3.8 Conclusion
References
Chapter 4: Protecting Canada's Railway Network Using Remote Sensing Technologies
4.1 Introduction
4.2 Canada's Landslide Laboratory
Remote Monitoring of Landslide and Infrastructure
4.3 Methods: Monitoring with InSAR, UAVs, Bathymetric Surveys, GNSS and ERT
InSAR Change Detection
UAV Change Detection

Bathymetric Change Detection
GNSS Change Detection
ERT Change Detection
4.4 Results: Change Detection with InSAR, UAVs, Bathymetric Surveys, GNSS and ERT
InSAR Change Detection
UAV Change Detection
Bathymetric Change Detection
GNSS Change Detection
ERT Change Detection
4.5 Discussion: Evaluating InSAR, UAVs, Bathymetric Surveys, GNSS and ERT
InSAR Change Detection
UAV Change Detection
Bathymetric Change Detection
GNSS Change Detection
ERT Change Detection
4.6 Summary: Protecting Canada's Railway Network Using Remote Sensing Techniques
References

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