High-Resolution Imaging using Fourier Telescopy
Agenda
Basic Concept
And Benefits . . .
Potential Applications
How Is an Aperture Synthesized In the Presence of Aberrations?
Sparse Synthetic Arrays
Application: Inspection of Lithography, Micro-Structures
Application: In-Situ Imaging of Very Small Tumors and Cells
Application: Flow-Cell Cytometry
Application: Accurate Motion Detection
Application: High-Performance Sonar
Application: Interferometric Particle Imaging of Nanostructures
Application: Imaging of Space Objects
Sample Results for Space Imaging Laboratory Results
Sample Results - Simulated Image Formation of Object in Geosynchronous Orbit
Final Result - Ideal and Reconstructed Object
Partial Reconstruction - 50 Triplets
Partial Reconstruction - 100 Triplets
Partial Reconstruction - 150 Triplets
Partial Reconstruction - 200 Triplets
Partial Reconstruction - 250 Triplets
Partial Reconstruction - 300 Triplets
Partial Reconstruction - 350 Triplets
Partial Reconstruction - 400 Triplets
Partial Reconstruction - 450 Triplets
Partial Reconstruction - 500 Triplets
Partial Reconstruction - 550 Triplets
Partial Reconstruction - 600 Triplets
Partial Reconstruction - 650 Triplets
Partial Reconstruction - 700 Triplets
Partial Reconstruction - 750 Triplets
Partial Reconstruction - 800 Triplets
Partial Reconstruction - 850 Triplets
Partial Reconstruction - 900 Triplets
Partial Reconstruction - 950 Triplets
Partial Reconstruction - 1000 Triplets
Final Processed Image
Design Considerations
Algorithms Are The Enabling Technology
Algorithmic Advances
Intuitive Explanation of Image Formation (1)
Intuitive Explanation of Image Formation (2)
Summary
References (1)
References (2)
Backup
MTF of Fourier Telescopy and Other Synthetic Aperture Systems
Email: rholmes001@aol.com
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