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Geodetic Deformation Monitoring From Geophysical to Engineering Roles International Association of Geodesy Symposia 1st Edition by Fernando Sanso ISBN 3540385967 9783540385967

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Author(s): Fernando Sanso?
ISBN(s): 9783540385967, 3540385967
Edition: 1
File Details: PDF, 9.50 MB
Year: 2006
Language: english
SKU: EB-1732358 Category: Tag:

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ISBN 10: 3540385967
ISBN 13: 9783540385967
Author: Fernando Sanso

Geodesy is the science dealing with the determination of the position of points in space, the shape and gravity field of the Earth and with their time variations. A consequence is that geodesists feel as a permanent subject of research, the detection, analysis and interpretation of spatial deformation as well as gravity field variation. This book collects 36 selected papers from the International Symposium on Geodetic Deformation Monitoring held in Jaén (Spain) from 17th to 19th March 2005. The main topics covered in the symposium were: mathematical and statistical models for crustal deformation analysis, deformation monitoring from GPS and InSAR data: analysis and geophysical interpretation, geodetic monitoring of movements in civil engineering, integration of spatial and terrestrial techniques in deformation studies, geodynamical applications of gravimetric observations and present-day geodetic instrumentation for deformation monitoring. This volume is a good overview of theoretical matters, models and results.

Geodetic Deformation Monitoring From Geophysical to Engineering Roles International Association of Geodesy Symposia 1st Table of contents:

Part I: Fundamentals of Geodetic Deformation Monitoring

  1. Introduction to Geodesy and Geodetic Deformation

    • Overview of Geodesy: History and Evolution

    • Defining Deformation in Geodesy

    • Types of Deformation: Elastic, Inelastic, and Creep

  2. Geodetic Techniques for Deformation Monitoring

    • Traditional Geodetic Methods: Leveling, Trilateration, and Triangulation

    • Modern Geodetic Tools: GNSS, LIDAR, and SAR

    • The Role of Remote Sensing in Deformation Monitoring

  3. Geodetic Reference Frames and Their Importance

    • Global and Local Reference Systems

    • Geodetic Datums and Coordinate Systems

    • Importance of Accurate Reference Frames in Deformation Studies

Part II: Geophysical Aspects of Deformation

  1. Geophysical Monitoring of Earth Deformation

    • Seismological Methods and Ground Movement

    • Gravity and Magnetic Field Variations

    • Groundwater and Tectonic Processes

  2. Geodetic and Geophysical Data Integration

    • Combining GNSS, Seismology, and Gravity for Deformation Studies

    • Geophysical Modeling and its Implications

    • Case Studies in Integrated Monitoring of Deformation

  3. Tectonic and Volcanic Deformation

    • Plate Tectonics and Crustal Deformation

    • Volcano Monitoring: GPS, Tiltmeters, and InSAR

    • The Impact of Earthquakes and Faults on Geodetic Measurements

Part III: Engineering Applications and Challenges

  1. Engineering Applications of Deformation Monitoring

    • Monitoring Infrastructure: Dams, Bridges, and Buildings

    • Urban Settlements and Land Subsidence

    • Geotechnical Engineering and Structural Integrity

  2. Urban and Civil Engineering Projects: Case Studies

    • Real-World Applications in Major Infrastructure Projects

    • Monitoring Deformations in Large-Scale Civil Engineering

    • Use of Geodetic Data for Hazard Mitigation in Engineering Projects

  3. Geodetic Monitoring in the Context of Climate Change

    • Rising Sea Levels and Coastal Deformation

    • Deformation Monitoring in Permafrost Regions

    • Implications for Engineering Structures in Changing Environments

Part IV: Emerging Technologies and Future Directions

  1. Innovations in Geodetic Deformation Monitoring Technologies

    • Advances in Satellite-based Techniques (e.g., GNSS, Sentinel-1)

    • Autonomous Drones and UAVs for Deformation Detection

    • The Role of Artificial Intelligence in Data Processing and Interpretation

  2. Challenges in Long-Term Monitoring and Data Interpretation

    • Error Analysis and Uncertainty Quantification

    • The Challenge of Long-Term Deformation Trends

    • Developing Robust Geodetic Systems for Continuous Monitoring

  3. Future Directions and the Role of Geodesy in Engineering

    • The Integration of Geodesy into Smart Cities and Infrastructure

    • Geodetic Systems in Future Engineering Practices

    • Toward a Global Network for Deformation Monitoring

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Tags: Fernando Sanso, Geodetic Deformation, Engineering