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Index
1    Introduction 1-1  Definition of Photogrammetry 1-2  History of Photogrammetry 1-3  Types of Photographs 1-4  Taking Vertical Aerial Photographs 1-5  Existing Aerial Photography 1-6  Uses of Photogrammetry 1-7  Photogrammetry and Geographic Information Systems 1-8  Professional Photogrammetry Organizations References Problems 2    Principles of Photography and Imaging 2-1  Introduction 2-2  Fundamental Optics 2-3  Lenses 2-4  Single-Lens Camera 2-5  Illuminance 2-6  Relationship of Aperture and Shutter Speed 2-7  Characteristics of Photographic Emulsions 2-8  Processing and Printing Black-and-White Photographs 2-9  Spectral Sensitivity of Emulsions 2-10  Filters 2-11  Color Film 2-12  Digital Images 2-13  Color Image Representation 2-14  Digital Image Display References Problems 3    Cameras and Other Imaging Devices 3-1  Introduction 3-2  Metric Cameras for Aerial Mapping 3-3  Main Parts of Frame Aerial Cameras 3-4  Focal Plane and Fiducial Marks 3-5  Shutters 3-6  Camera Mounts 3-7  Camera Controls 3-8  Automatic Data Recording 3-9  Digital Mapping Cameras 3-10  Camera Calibration 3-11  Laboratory Methods of Camera Calibration 3-12  Stellar and Field Methods of Camera Calibration 3-13  Calibration of Nonmetric Cameras 3-14  Calibrating the Resolution of a Camera References Problems 4    Image Measurements and Refinements 4-1  Introduction 4-2  Coordinate Systems for Image Measurements 4-3  Simple Scales for Photographic Measurements 4-4  Measuring Photo Coordinates with Simple Scales 4-5  Comparator Measurement of Photo Coordinates 4-6  Photogrammetric Scanners 4-7  Refinement of Measured Image Coordinates 4-8  Distortions of Photographic Films and Papers 4-9  Image Plane Distortion 4-10  Reduction of Coordinates to an Origin at the Principal Point 4-11  Correction for Lens Distortions 4-12  Correction for Atmospheric Refraction 4-13  Correction for Earth Curvature 4-14  Measurement of Feature Positions and Edges References Problems 5    Object Space Coordinate Systems 5-1  Introduction 5-2  Concepts of Geodesy 5-3  Geodetic Coordinate System 5-4  Geocentric Coordinates 5-5  Local Vertical Coordinates 5-6  Map Projections 5-7  Horizontal and Vertical Datums References Problems 6    Vertical Photographs 6-1  Geometry of Vertical Photographs 6-2  Scale 6-3  Scale of a Vertical Photograph Over Flat Terrain 6-4  Scale of a Vertical Photograph Over Variable Terrain 6-5  Average Photo Scale 6-6  Other Methods of Determining Scale of Vertical Photographs 6-7  Ground Coordinates from a Vertical Photograph 6-8  Relief Displacement on a Vertical Photograph 6-9  Flying Height of a Vertical Photograph 6-10  Error Evaluation References Problems 7    Stereoscopic Viewing 7-1  Depth Perception 7-2  The Human Eye 7-3  Stereoscopic Depth Perception 7-4  Viewing Photographs Stereoscopically 7-5  Stereoscopes 7-6  The Use of Stereoscopes 7-7  Causes of Y Parallax 7-8  Vertical Exaggeration in Stereoviewing References Problems 8    Stereoscopic Parallax 8-1  Introduction 8-2  Photographic Flight-Line Axes for Parallax Measurement 8-3  Monoscopic Methods of Parallax Measurement 8-4  Principle of the Floating Mark 8-5  Stereoscopic Methods of Parallax Measurement 8-6  Parallax Equations 8-7  Elevations by Parallax Differences 8-8  Simplified Equation for Heights of Objects from Parallax Differences 8-9  Measurement of Parallax Differences 8-10  Computing Flying Height and Air Base 8-11  Error Evaluation References Problems 9    Elementary Methods of Planimetric Mapping for GIS 9-1  Introduction 9-2  Planimetric Mapping with Reflection Instruments 9-3  Georeferencing of Digital Imagery 9-4  Heads-Up Digitizing 9-5  Photomaps 9-6  Mosaics 9-7  Uncontrolled Digital Mosaics 9-8  Semicontrolled Digital Mosaics 9-9  Controlled Digital Mosaics References Problems 10    Tilted and Oblique Photographs 10-1  Introduction 10-2  Point Perspective 10-3  Angular Orientation in Tilt, Swing, and Azimuth 10-4  Auxiliary Tilted Photo Coordinate System 10-5  Scale of a Tilted Photograph 10-6  Relief Displacement on a Tilted Photograph 10-7  Determining the Angle of Inclination of the Camera Axis in Oblique Photography 10-8  Computing Horizontal and Vertical Angles from Oblique Photos 10-9  Angular Orientation in Omega-Phi-Kappa 10-10  Determining the Elements of Exterior Orientation 10-11  Rectification of Tilted Photographs 10-12  Correction for Relief of Ground Control Points Used in Rectification 10-13  Analytical Rectification 10-14  Optical-Mechanical Rectification 10-15  Digital Rectification 10-16  Atmospheric Refraction in Tilted Aerial Photographs References Problems 11    Introduction to Analytical Photogrammetry 11-1  Introduction 11-2  Image Measurements 11-3  Control Points 11-4  Collinearity Condition 11-5  Coplanarity Condition 11-6  Space Resection by Collinearity 11-7  Space Intersection by Collinearity 11-8  Analytical Stereomodel 11-9  Analytical Interior Orientation 11-10  Analytical Relative Orientation 11-11  Analytical Absolute Orientation References Problems 12    Stereoscopic Plotting Instruments 12-1  Introduction 12-2  Classification of Stereoscopic Plotters
PART I DIRECT OPTICAL PROJECTION STEREOPLOTTERS
12-3  Components 12-4  Projection Systems 12-5  Viewing and Tracing Systems 12-6  Interior Orientation 12-7  Relative Orientation 12-8  Absolute Orientation
PART II ANALYTICAL PLOTTERS
12-9  Introduction 12-10  System Components and Method of Operation 12-11  Analytical Plotter Orientation 12-12  Three-Dimensional Operation of Analytical Plotters 12-13  Modes of Use of Analytical Plotters
PART III SOFTCOPY PLOTTERS
12-14  Introduction 12-15  System Hardware 12-16  Image Measurements 12-17  Orientation Procedures 12-18  Epipolar Geometry References Problems 13    Topographic Mapping and Spatial Data Collection 13-1  Introduction 13-2  Direct Compilation of Planimetric Features by Stereoplotter 13-3  Direct Compilation of Contours by Stereoplotter 13-4  Digitizing Planimetric Features from Stereomodels 13-5  Representing Topographic Features in Digital Mapping 13-6  Digital Elevation Models and Indirect Contouring 13-7  Automatic Production of Digital Elevation Models 13-8  Orthophoto Generation 13-9  Map Editing References Problems 14    Laser Scanning Systems 14-1  Introduction 14-2  Principles and Hardware 14-3  Airborne Laser Scanning 14-4  Terrestrial Laser Scanning 14-5  Laser Scan Data 14-5  Error Evaluation References Problems 15    Fundamental Principles of Digital Image Processing 15-1  Introduction 15-2  The Digital Image Model 15-3  Spatial Frequency of a Digital Image 15-4  Contrast Enhancement 15-5  Spectral Transformations 15-6  Moving Window Operations 15-7  Multiscale Representation 15-8  Digital Image Matching 15-9  Summary References Problems 16    Control for Aerial Photogrammetry 16-1  Introduction 16-2  Ground Control Images and Artificial Targets 16-3  Number and Location of Photo Control 16-4  Traditional Field Survey Methods for Establishing Horizontal and Vertical Control 16-5  Fundamentals of the Global Positioning System 16-6  Kinematic GPS Positioning 16-7  Inertial Navigation Systems 16-8  GPS-INS Integration References Problems 17    Aerotriangulation 17-1  Introduction 17-2  Pass Points for Aerotriangulation 17-3  Fundamentals of Semianalytical Aerotriangulation 17-4  Sequential Construction of a Strip Model from Independent Models 17-5  Adjustment of a Strip Model to Ground 17-6  Simultaneous Bundle Adjustment 17-7  Initial Approximations for the Bundle Adjustment 17-8  Bundle Adjustment with Airborne GPS Control 17-9  Interpretation of Bundle Adjustment Results 17-10  Aerotriangulation with Airborne Linear Array Sensors 17-11  Satellite Image Triangulation 17-12  Efficient Computational Strategies for Aerotriangulation References Problems 18    Project Planning 18-1  Introduction 18-2  Importance of Flight Planning 18-3  Photographic End Lap and Side Lap 18-4  Purpose of the Photography 18-5  Photo Scale 18-6  Flying Height 18-7  Ground Coverage 18-8  Weather Conditions 18-9  Season of the Year 18-10  Flight Map 18-11  Specifications 18-12  Cost Estimating and Scheduling References Problems 19    Terrestrial and Close-Range Photogrammetry 19-1  Introduction 19-2  Applications of Terrestrial and Close-Range Photogrammetry 19-3  Terrestrial Cameras 19-4  Matrix Equations for Analytical Self-Calibration 19-5  Initial Approximations for Least Squares Adjustment 19-6  Solution Approach for Self-Calibration Adjustment 19-7  Control for Terrestrial Photogrammetry 19-8  Analytical Self-Calibration Example 19-9  Planning for Close-Range Photogrammetry References Problems 20    Photogrammetric Applications in GIS 20-1  Introduction 20-2  Land and Property Management 20-3  Floodplain Rating 20-4  Water Quality Management 20-5  Wildlife Management 20-6  Environmental Monitoring 20-7  Wetland Analysis 20-8  Transportation 20-9  Multipurpose Land Information System 20-10  Summary References Problems A    Units, Errors, Significant Figures, and Error Propagation B    Introduction to Least Squares Adjustment C    Coordinate Transformations D    Development of Collinearity Condition Equations E    Digital Resampling F    Conversions Between Object Space Coordinate Systems Index
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