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Full Description
A groundbreaking synthesis of science, technology, and geopolitics, this book delivers an unprecedented analysis of the Grand Ethiopian Renaissance Dam (GERD). Leveraging advanced quantum computing, radar interferometry, and remote sensing—including Sentinel-1, ICEYE, and TerraSAR-X—this work reveals hidden structural
vulnerabilities in GERD and models catastrophic breach scenarios. Featuring the original Marghany Hologram-TomoSAR algorithm and new quantum phase unwrapping
methods, it offers critical insights into environmental, engineering, and military dimensions. From sediment saturation to seismic risk, and from biblical prophecy to regional diplomacy, this book challenges conventional narratives and opens new frontiers in monitoring, forecasting, and strategic response to GERD's evolving dynamics.
Contents
Preface. Fundamental Principles of Dam Construction and Their Environmental and Societal Impacts. Grand Ethiopian Renaissance Dam Construction Plans and Surrounding Geological Environment. Utilizing Quantized Maxwell's Equations for Remote Sensing and Imaging of the Grand Ethiopian Renaissance Dam (GERD). Quantum Spectral Signature of the Grand Ethiopian Renaissance Dam Construction and its Surrounding Geological Features. Quantum Support Vector Machine for Simulating Sedimentation Concentration in the GERD Reservoir. Advanced Quantum Image Processing for Automatic Lineament and Fault Detection along GERD Using Multispectral Remote Sensing Data. Fundamentals of Microwave Altimetry: Analyzing Satellite Data. Modeling Water Height Level Variations in Lake Millennium Using Advanced Interferometry Altimeter Satellite Data. Unveiling Dam Turbulence and Efficiency Using Marghany's Quantum-Optimized Multi-Objective Algorithm in SAR Imaging. Quantum Along-Track Interferometry: Modeling Downstream Flows and Water Discharge Using TanDEM-X Data. Quantum Convolutional Neural Network for Monitoring Deformation of the Grand Ethiopian Renaissance Dam Using Persistent Scatterer Interferometry Technique. Four-Dimensional Marghany Hologram-TomoSAR Algorithm and Quantum Machine Learning for Monitoring and Forecasting Dam Failures. Index. About the Author.
