Note de contenu : |
BACKGROUND
Digital Signal Processing : - Signals and Systems, - Frequency Representation, - Fourier Transforms, - Digital Filtering
Digital Image Processing : -Image Models, - Image Characteristics, - Image Enhancement and Restoration,
- Geometric Transformations, - Image Segmentation
Human Vision : - Overview of Human Visual Systems, - The Eye, - Visual Cortex, - Visual Perception, - Marr's Theory about Vision
Computer Vision : - Background, - Key Concepts, Key Issues, - Edge Detection, - Scale-Space Theory and Image Pyramids, - Perceptual Organization, - Object Recognition
Radiometry and Photometry : - Electromagnetic Radiation, - Radiometry, - Photometry, - Radiative Energy Transfer
FUNDAMENTALS OF DIGITAL PHOTOGRAMMETRY
Electronic Imaging Systems : - CCD Sensors : Working Principle and Properties, - Solid-State Cameras,
- Frame Grabbers
Scanners : - Drum Scanners vs. Flatbed Scanners, - Principal Components of Flatbed Scanners, - Pixel Size,
- Potential Error Sources
Digital Photogrammetric Workstations : - Background, - Basic System Components, - Basic System Functionality, - Analytical Plotters vs. DPWs
Image Matching Fundamentals : Fundamental Problems of Image Matching , - Solutions to the Fundamental
Problems, - Area-Based Matching
Advanced Image Matching Methods : Feature-Based Matching, - Relational Matching, - Template Matching
Computing Normalized Images : Epipolar Geometry, - Transformation from Original to Normalized Image,
- Normalized Digital Images
AUTOMATICS ORIENTATION PROCEDURES
Automatic Interior Orientation : Purpose of Interior Orientation, - Determining Interior Orientation, - Interactive Interior Orientation, - Autonomous Interior Orientation, - Area-Based Approach, - Feature-Based Approach
Automatic Exterior Orientation : - Direct vs. Indirect Orientation, - Background, - Automatic Orientation with Control Points, - Automatic Orientation with Control Features, - Automatic Orientationwith Control Surfaces |