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Digital photogrammetry / W. Linder (2009)

Public Titre : Digital photogrammetry : a practical course Type de document : Guide/Manuel Auteurs : W. Linder, Auteur Mention d'édition : 3 Editeur : Berlin, Heidelberg, Vienne, New York, ... : Springer Année de publication : 2009 Importance : 220 p. Format : 16 x 24 cm + 1 paire de lunettes + 1 cederom ISBN/ISSN/EAN : 978-3-540-92724-2 Note générale : Bibliographie Langues : Anglais (eng) Descripteur : [Vedettes matières IGN] Photogrammétrie numérique [Termes IGN] aérotriangulation [Termes IGN] compensation par bloc [Termes IGN] limite de résolution géométrique [Termes IGN] limite de résolution radiométrique [Termes IGN] modèle numérique de terrain [Termes IGN] mosaïque d'images [Termes IGN] orientation interne [Termes IGN] orthoimage [Termes IGN] photogrammétrie métrologique Index. décimale : 33.30 Photogrammétrie numérique Résumé : (Editeur) The third edition is an "all-in-one" combination of basic theory and practical exercises. Potential readers/users are students of Photogrammetry, Geodesy, Geography and other sciences, but also all who are interested in this topic. No prior knowledge is necessary, except the handling of standard PCs. Theory is presented true to the motto "as little as possible, but as much as necessary". The main part of the book contains several tutorials. In increasing complexity, accompanied by texts explaining further theory, the reader can proceed step by step through the particular working parts. All intermediate as well as the final results are discussed with reference to accuracy and error handling. Most of the standard work in Digital Photogrammetry is shown and trained for example scanning, image orientation, mono and stereo plotting, aerial triangulation measurement (manual and automatic), block adjustment, automatic creation of surface models via image matching, creation of ortho images and mosaics, and others. Not only standard situations are dealt with but also more complex ones, such as unknown camera data, extreme relief or areas with very low contrast. Examples of both aerial and close-range photogrammetry present the power of these type of measurement techniques. The software is not limited to the example data included but may be used for personal projects. Part of the book comprises a complete description of the software. Note de contenu : 1 Introduction 1.1 Basic idea and main task of photogrammetry 1.2 Why photogrammetry ? 1.3 Image sources: Analogue and digital cameras 1.4 Digital consumer cameras 1.5 Short history of photogrammetric evaluation methods 1.6 Geometric principles 1: Camera position, focal length 1.7 Geometric principles 2: Image orientation 1.8 Geometric principles 3: Relative camera positions (stereo) 1.9 Some definitions 1.10 Length and angle units 1.11 A typical workflow in photogrammetry 2 Included software and data 2.1 Hardware requirements, operating system 2.2 Image material 2.3 Overview of the software 2.4 Installation 2.5 Additional programmes, copyright, data 2.6 General remarks 2.7 Software versions, support 3 Scanning of photos 3.1 Scanner types 3.2 Geometric resolution 3.3 Radiometric resolution 3.4 Some practical advice 3.5 Import of the scanned images 4 Example 1: A single model 4.1 Project definition 4.2 Orientation of the images 4.3 Model definition 4.4 Stereoscopic viewing 4.5 Measurement of object co-ordinates 4.6 Creation of DTMs via image matching 4.7 Ortho images 5 Example 2: Aerial triangulation 5.1 Aerial triangulation measurement (ATM) 5.2 Block adjustment with BLUH 5.3 Mosaics of DTMs and ortho images 6 Example 3: Some special cases 6.1 Scanning aerial photos with an A4 scanner 6.2 Interior orientation without camera parameters 6.3 Images from a digital camera 6.4 An example of close-range photogrammetry 6.5 Some remarks about lens distortion 6.6 Stereo images from satellites 6.7 Stereo images from flatbed scanners 6.8 A view into the future: Photogrammetry in 2020 7 Programme description 7.1 Some definitions 7.2 Basic functions 7.3 Aims and limits of the programme 7.4 Operating the programme 7.5 Buttons in the graphics windows 7.6 File handling 7.7 Pre programmes 7.8 Aerial triangulation measurement (ATM) 7.9 Processing 7.10 Display 7.11 Aerial triangulation with BLUH Numéro de notice : 20593 Affiliation des auteurs : non IGN Thématique : IMAGERIE Nature : Manuel Accessibilité hors numérique : Non accessible via le SUDOC Permalink : https://documentation.ensg.eu/index.php?lvl=notice_display&id=46832

Digital photogrammetry / W. Linder (2003)

Public Titre : Digital photogrammetry : theory and applications Type de document : Guide/Manuel Auteurs : W. Linder, Auteur Editeur : Berlin, Heidelberg, Vienne, New York, ... : Springer Année de publication : 2003 Importance : 189 p. Format : 16 x 24 cm - cont. cederom ISBN/ISSN/EAN : 978-3-540-00810-1 Note générale : Bibliographie Langues : Anglais (eng) Descripteur : [Vedettes matières IGN] Photogrammétrie numérique [Termes IGN] aérotriangulation [Termes IGN] compensation par bloc [Termes IGN] limite de résolution géométrique [Termes IGN] limite de résolution radiométrique [Termes IGN] modèle numérique de terrain [Termes IGN] mosaïque d'images [Termes IGN] orientation interne [Termes IGN] orthoimage [Termes IGN] photogrammétrie métrologique Index. décimale : 33.30 Photogrammétrie numérique Note de contenu : 1. Introduction 1.1 Basic idea and main task of photogrammetry 1.2 Image sources: Analogue and digital cameras 1.3 Short history of photogrammetric evaluation methods 1.4 Geometric principles 1: Flying height, focal length 1.5 Geometric principles 2: Image orientation 1.6 Some definitions 1.7 Length and angle units 2. Included software and data 2.1 Hardware requirements, operating system 2.2 Image material 2.3 Overview of the software 2.4 Installation 2.5 Additional programmes, copyright, data 2.6 General remarks 3. Scanning of photos 3.1 Scanner types 3.2 Geometric resolution 3.3 Radiometric resolution 3.4 Some practical advice 3.5 Import of the scanned images 4. Example 1: A single model 4.1 Project definition 4.2 Orientation of the images 4.2.1 Camera definition 4.2.2 Interior orientation 4.2.3 Brightness and contrast 4.2.4 Control points 4.2.5 Exterior orientation 4.2.6 Over-determination and error detection 4.3 Model definition 4.4 Stereoscopic viewing 4.5 Measurement of object co-ordinates 4.6 Creation of DTMs via image matching 4.6.1 Some theory 4.6.2 Practical tests 4.6.4 Additional manual measurements 4.6.5 Quality control 4.7 Ortho images 4.7.1 Some theory 4.7.2 Resampling methods 4.7.3 Practical tests 4.7.4 Creation and overlay of contours 4.7.5 Simple 3D data collection 5. Example 2: Aerial triangulation 5.1 Aerial triangulation measurement (ATM) 5.1.1 Common principles 5.1.2 Interior orientation 5.1.3 Manual measurement 5.1.4 Automatic measurement via image matching: Introduction 5.1.5 Co-ordinate input and measurement of ground control points 5.1.6 Strip definition 5.1.7 Measurement of strip connections 5.1.8 Automatic image co-ordinate measurement (AATM) 5.2 Block adjustment with BL UH 5.2.1 Setting the parameters 5.2.2 Block adjustment, batch mode 5.2.3 Discussion of the results 5.2.4 Additional analysis of the results 5.2.5 Block adjustment with other programmes: Example BINGO 5.3 Mosaics of DTMs and ortho images 5.3.1 Model definition 5.3.2 Creation of a WM mosaic 5.3.3 Creation of an ortho image mosaic 5.3.4 Shaded relief 5.3.5 Contour lines overlay 5.3.6 3D view 5.3.7 3D view in real-time: Example for plug-ins 6. Example 3: Some special cases 6.1 Scanning aerial photos with an A4 scanner 6.2 Interior orientation without camera parameters 6.3 Images from a digital camera 6.3.1 The situation 6.3.2 Interior and exterior orientation 6.3.3 Geometric problems 6.3.4 WM creation 6.3.5 Differential WM 6.4 An example of close-range photogrammetry 6.4.1 The situation 6.4.2 Interior and exterior orientation 6.4.3 Model definition 6.4.4 WM creation 6.5 A view into the future: Photogrammetry in 2020 7. Programme description. 7.1 Some definitions 7.2 Basic functions 7.3 Aims and limits of the programme 7.4 Operating the programme 7.5 Buttons in the graphics windows 7.6 File handling 7.6.1 File > Select project 7.6.2 File > Define project 7.6.3 File > Edit project 7.6.4 File > Import raster 7.6.5 File > Combination 7.6.6 File > Reference list 7.6.7 File > Control point editor 7.6.8 File > Import BINGO 7.7 Pre programmes 7.7.1 Pre programmes > Camera definition > Analogue 7.7.2 Pre programmes > Camera definition > Digital 7.7.3 Pre programmes > Strip definition 7.7.4 Pre programmes > Orientation > Measure > Interior orientation. 7.7.5 Pre programmes > Orientation > Measure > Exterior orientation 7.7.6 Pre programmes > Orientation > Measure > Pseudo camera def, 7.7.7 Pre programmes > Orientation > Measure > Raster 7.7.8 Pre programmes > Parameters of the exterior orientation 7.7.9 Pre programmes > Select model 7.7.10 Pre programmes > Define model 7.7.11 Pre programmes > Edit model 7.7.12 Pre programmes > Initial WM 7.7.13 Pre programmes > Compare nominal - real 7.8 Aerial triangulation measurement (A TM) 7.8.1 ATM > Manual measurement 7.8.2 ATM > Editor ATM points 7.8.3 ATM > Calculate strips 7.8.4 ATM > Measure connections 7.8.5 ATM > Automatic measurement 7.8.6 ATM > Import > IMATIE 7.8.7 ATM > Export > BLUH 7.8.8 ATM > Export > BINGO 7.8.9 ATM > Export > IMATIE 7.9 Aerial triangulation with BLUH 7.9.1 BLUH > Parameters 7.9.2 BLUH > BLOR, BLAPP, BLIM/BLUH 7.9.3 BLUH > Analysis 7.10 Processing 7.10.1 Processing > Mono measurement 7.10.2 Processing > Stereo measurement 7.10.3 Processing > Stereo correlation (matching) 7.10.4 Processing > WM interpolation 7.10.5 Processing > Ortho image 7.11 Display 7.11.1 Raster image 7.11.2 ASCII Appendix Numéro de notice : 13178 Affiliation des auteurs : non IGN Thématique : IMAGERIE Nature : Manuel Accessibilité hors numérique : Non accessible via le SUDOC Permalink : https://documentation.ensg.eu/index.php?lvl=notice_display&id=46257