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Interferometric Synthetic Aperture Radar (InSAR) technology is an operational tool for measuring and monitoring coastal urban stability, including the disappearance of coastal cities.This book provides a comprehensive understanding of how to track climate change impacts on coastal dynamics and their consequent effects on coastal geomorphological changes. Advanced InSAR techniques are discussed, including case studies focusing on the coastal urban areas of Alexandria, Egypt, and Singapore, as well as other potential coastal cities.
- Describes the use of advanced radar technology for monitoring wave impacts and coastal city damage
- Introduces new InSAR technologies for assessing coastal infrastructure and urban disappearance
- Addresses the integration of modern radar interferometry modelling in coastal city sustainability
- Discusses innovative approaches to model and simulate coastal sediment processes and erosion using space-based interferometry
- Explores forecasting of city disappearance and collapse through examples utilizing TerraSAR spot mode data
This book is intended for graduate students and researchers in coastal engineering, environmental sciences, remote sensing, computer modelling, and image/signal processing.
List of contents
1.Principles of Nonlinear Mechanisms Governing Water Wave Theories 2. Theoretical Analysis of Nonlinear Sea Level Rise and Its Impact on Coastal Subsidence 3. Quantization Principles in Radar and Radar Interferometry Signal Processing 4.Novel Quantum-Theoretic Synthetic Aperture Radar Imaging Mechanism for Ocean Wave Spectra 5. MAGEDISM Framework for Retrieving Shoreline Deformation from Nonlinear Wave Spectra Derived from Polarimetric SAR Observations 6. MAGEDISM Theory for Retrieving Shoreline Change Rates Using Along-Track Interferometry 7. Microwave Altimetry Principles: A Comprehensive Analysis of Satellite Data 8. Investigating Nonlinear Variations in Sea Surface Height Levels in Coastal Waters Through Advanced Interferometric Satellite Altimetry Data 9. MAGEDISM Quantum Topological Algorithm and Quantum Multi-Temporal InSAR for Coastal Land Deformation Modeling: A Case Study of Singapore 10. Quantum Neural Networks and MAGEDISM Quantum Topology Spectra for Coastal Subsidence Monitoring: A Case Study of Jakarta, Indonesia 11. Tsunami Inundation and Coastal Impact Simulation Using Quantum Convolutional Neural Networks: Insights from the 2004 Banda Aceh Case Study 12. Four-Dimensional Marghany Hologram-TomoSAR Algorithm for Coastal Monitoring and Disappearance Risk Assessment in Alexandria
About the author
Maged Marghany, the visionary behind the innovative theory titled "Quantized Marghany's Front," is the Director at Safanad Information Technology in Malaysia. Dr. Marghany has been listed among the top 2% of scientists for four consecutive years-2020, 2021, 2022, 2023, and 2024 by Stanford University. Furthermore, his profound impact is reflected in the recognition of two of his books, acknowledged among the best genetic algorithm books of all time. His ongoing commitment continues to shape the landscape of scientific thought and geoinformation expertise. Additionally, Maged Marghany achieved the remarkable distinction of being ranked first among oil spill scientists in a global list spanning the last 50 years, compiled by the prestigious Universidad Estadual de Feira de Santana in Brazil. He also a distinguished visiting professor at Malikussaleh University and other universities in Indonesia. In previous roles, He was directed some initiations in Malaysia. His educational journey includes a post-doctoral degree in radar remote sensing, a PhD in environmental remote sensing, and a Master of Science in physical oceanography. With over 250 papers and influential books like "Advanced Remote Sensing Technology for Tsunami Modeling and Forecasting," Dr. Marghany's significant contributions shape global perspectives in remote sensing, geospatial applications, and environmental science.
