Digital photogrammetry : a practical course (Record no. 8122)
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| 000 -LEADER | |
|---|---|
| fixed length control field | 06391nam a2200157Ia 4500 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 3540927247 |
| 082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER | |
| Classification number | 526.982 |
| Item number | LIN |
| 100 ## - MAIN ENTRY--PERSONAL NAME | |
| Personal name | Linder, Wilfried |
| 245 ## - TITLE STATEMENT | |
| Title | Digital photogrammetry : a practical course |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
| Place of publication, distribution, etc. | Berlin |
| Name of publisher, distributor, etc. | Springer |
| Date of publication, distribution, etc. | 2009 |
| 300 ## - PHYSICAL DESCRIPTION | |
| Extent | xv,220p;CD-ROM;3 - D Glasses |
| 500 ## - GENERAL NOTE | |
| General note | CONTENTS 1 Introduction 1 1.1 Basic idea and main task of photogrammetry 1 1.2 Why photogrammetry ? 3 1.3 Image sources: Analogue and digital cameras 4 1.4 Digital consumer cameras 6 1.5 Short history of photogrammetric evaluation methods 7 1.6 Geometric principles 1: Camera position, focal length. 8 1.7 Geometric principles 2: Image orientation. 11 1.8 Geometric principles 3: Relative camera positions (stereo) 13 1.9 Some definitions 15 1.10 Length and angle units 16 1.11 A typical workflow in photogrammetry 16 2 Included software and data 19 2.1 Hardware requirements, operating system 19 2.2 Image material 20 2.3 Overview of the software. 20 2.4 Installation 22 2.5 Additional programmes, copyright, data 23 2.6 General remarks 23 2.7 Software versions, support 24 3 Scanning of photos 27 3.1 Scanner types 27 3.2 Geometric resolution 28 3.3 Radiometric resolution 29 3.4 Some practical advice 29 3.5 Import of the scanned images 31 4 Example 1: A single model 33 4.1 Project definition. 33 4.2 Orientation of the images 35 4.2.1 Camera definition 35 4.2.2 Interior orientation 37 4.2.3 Brightness and contrast 39 4.2.4 Control points 40 4.2.5 Exterior orientation 43 4.2.6 Over-determination and error detection 47 4.3 Model definition 48 4.4 Stereoscopic viewing 51 4.5 Measurement of object co-ordinates 52 4.6 Creation of DTMs via image matching 55 4.6.1 Some theory 55 4.6.2 Practical tests 60 4.6.3 Additional manual measurements 63 4.6.4 Quality control 64 4.7 Ortho images 65 4.7.1 Some theory 66 4.7.2 Resampling methods 67 4.7.3 Practical tests 69 4.7.4 Creation and overlay of contours 70 4.7.5 Simple 3D data collection 72 5 Example 2 : Aerial triangulation 75 5.1 Aerial triangulation measurement (ATM) 75 5.1.1 Common principles 75 5.1.2 Interior orientation 78 5.1.3 Manual measurement 78 5.1.4 Automatic measurement via image matching: Introduction 82 5.1.5 Co-ordinate input and measurement of ground control points 82 5.1.6 Strip definition 85 5.1.7 Measurement of strip connections 86 5.1.8 Automatic image co-ordinate measurement (AATM) 87 5.2 Block adjustment with BLUH 91 5.2.1 Introduction .91 5.2.2 Running the block adjustment 92 5.2.3 Discussion of the results 94 5.2.4 Additional analysis of the results 99 5.2.5 Block adjustment with other programmes : Example BINGO 104 5.3 Mosaics of DTMs and ortho images 105 5.3.1 Model definition 105 5.3.2 Creation of a DTM mosaic 105 5.3.3 Creation of an ortho image mosaic 106 5.3.4 Shaded relief 108 5.3.5 Contour lines overlay 108 5.3.6 3D view 109 5.3.7 3D view in real-time: Example for plug-ins 109 6 Example 3: Some special cases 111 6.1 Scanning aerial photos with an A4 scanner 111 6.2 Interior orientation without camera parameters 113 6.3 Images from a digital camera 114 6.3.1 The situation 114 6.3.2 Interior and exterior orientation 116 6.3.3 Geometric problems 117 6.3.4 DTMcreation 119 6.3.5 Differential DTM 120 6.4 An example of close-range photogrammetry 121 6.4.1 The situation 121 6.4.2 Interior and exterior orientation 123 6.4.3 Modeldefmition l27 6.4.4 DTM creation 127 6.4.5 Image sequences 129 6.4.6 Visualisation of wave movement 130 6.5 Some remarks about lens distortion 132 6.6 Stereo images from satellites 134 6.7 Stereo images from flatbed scanners 137 6.8 A view into the future: Photogrammetry in 2020 139 Programme description 141 7.1 Some definitions 141 7.2 Basic functions 141 7.3 Aims and limits of the programme 142 7.4 Operating the programme 142 7.5 Buttons in the graphics windows 143 7.6 File handling 144 7.6.1 File > Select project 144 7.6.2 File > Define project 144 7.6.3 File > Edit project 145 7.6.4 File > Import raster 145 7.6.5 File > Import Rollei CDW 145 7.6.6 File > Combination 145 7.6.7 File > Reference list 146 7.6.8 File > Numerical file names 146 7.7 Pre programmes 147 7.7.1 Pre programmes > Camera definition > Analogue 147 7.7.2 Pre programmes > Camera definition > Digital 148 7.7.3 Pre programmes > Control point editor 149 7.7.4 Pre programmes > Strip definition 149 7.7.5 Pre programmes > Orientation > Measure > Interior orientation 150 7.7.6 Pre programmes > Orientation > Measure > Exterior orientation 152 7.7.7 Pre programmes > Orientation > Measure > Pseudo camera def. 154 7.7.8 Pre programmes > Orientation > Measure > LICAL 154 7.7.9 Pre programmes > Parameters of the exterior orient. > Manual 155 7.7.10 Pre programmes > Parameters of the exterior orient. > Import 155 7.7.11 Pre programmes > Parameters of the exterior orient. > BINGO 155 7.7.12 Pre programmes > Select model 155 7.7.13 Pre programmes > Define model 156 7.8 Aerial triangulation measurement (ATM) 159 7.8.1 ATM > Manual measurement 159 7.8.2 ATM > Editor ATM points 163 7.8.3 ATM > Calculate strip images 163 7.8.4 ATM > Measure connections 163 7.8.5 ATM > Automatic measurement (AATM) 165 7.8.6 ATM > Import > IMATIE 166 7.8.7 ATM > Export > BLUH 166 7.8.8 ATM > Export > BINGO 167 7.8.9 ATM > Export > IMATIE 167 7.8.10 ATM > BLUH graphics 167 7.9 Processing 168 7.9.1 Processing > Stereo measurement 168 7.9.3 Processing > Stereo correlation (matching) 170 7.9.4 Processing > DTM interpolation 173 7.9.5 Processing > Compare nominal - real 173 7.9.6 Processing>Ortho image 174 7.9.7 Processing > Image sequence 175 7.10 Display 176 7.10.1 Display raster image 176 7.10.2 Display text 177 7.11 Aerial triangulation with BLUH 178 7.11.1 Getting started 178 7.11.2 Pre processing 178 7.11.3 Pre processing > Import PIX 178 7.11.4 Block adjustment > Strategy 179 7.11.5 Block adjustment > The central BLUH modules 179 7.11.6 Block adjustment > All (batch) 180 7.11.7 Block adjustment > Export orientations 180 7.11.8 Post processing > Analysis (BLAN) 180 7.11.9 Post processing > Display graphics 180 7.11.10 Some more theory 180 Appendix 185 1. Codes 185 2. GCP positions for tutorial 2 185 3. Technical data of digital camera chips 204 References 205 List of figures and formulas 213 1. Figures 213 2. Formulas 215 |
| 650 ## - SUBJECT ADDED ENTRY--TOPICAL TERM | |
| Topical term or geographic name as entry element | Geophysics |
| -- | Computers |
| -- | Regional planning |
| -- | Remote sensing |
| -- | Urban planning |
| 890 ## - COUNTRY | |
| -- | United States |
| 891 ## - TOPIC | |
| -- | FGSA |
| Withdrawn status | Lost status | Damaged status | Not for loan | Collection code | Home library | Current library | Date acquired | Source of acquisition | Cost, normal purchase price | Total Checkouts | Full call number | Barcode | Date last seen | Date checked out | Price effective from | Koha item type | Public note |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| CEPT Library | CEPT Library | 22/08/2010 | Astha Book Agency | 5556.52 | 5 | 526.982 LIN | 006238 | 07/08/2023 | 25/07/2023 | 30/08/2013 | Book | Status:Catalogued;Bill No:3430 |