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Close-range photogrammetry and 3D imaging / Thomas Luhmann (2019)  

Public Titre : Close-range photogrammetry and 3D imaging Type de document : Guide/Manuel Auteurs : Thomas Luhmann, Auteur ; Stuart Robson, Auteur ; Stephen Kyle, Auteur ; Jan Böhm , Auteur Editeur : Berlin, New York : Walter de Gruyter Année de publication : 2019 Importance : 822 p. Format : 17 x 24 cm ISBN/ISSN/EAN : 978-3-11-060724-6 Note générale : Bibliographie Langues : Anglais (eng) Descripteur : [Vedettes matières IGN] Photogrammétrie numérique [Termes IGN] analyse d'image numérique [Termes IGN] étalonnage [Termes IGN] image 3D [Termes IGN] instrument de photogrammétrie [Termes IGN] logiciel de photogrammétrie [Termes IGN] modélisation 3D [Termes IGN] orientation d'image [Termes IGN] photogrammétrie métrologique [Termes IGN] précision des mesures [Termes IGN] reconstruction 3D [Termes IGN] transformation mathématique Index. décimale : 33.30 Photogrammétrie numérique Résumé : (Editeur) This is the third edition of the well-known guide to close-range photogrammetry. It provides a thorough presentation of the methods, mathematics, systems and applications which comprise the subject of close-range photogrammetry, which uses accurate imaging techniques to analyse the three-dimensional shape of a wide range of manufactured and natural objects. Note de contenu : 1. Introduction 2. Mathematical fundamentals 3. Imaging technology 4. Analytical methods 5. Digital image analysis 6. Measuring tasks and systems 7. Measurement design and quality 8. Example applications Numéro de notice : 26341 Affiliation des auteurs : non IGN Thématique : IMAGERIE Nature : Manuel de cours DOI : 10.1515/9783110607253 En ligne : https://doi.org/10.1515/9783110607253 Format de la ressource électronique : URL Permalink : https://documentation.ensg.eu/index.php?lvl=notice_display&id=95700

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Photogrammetric computer vision / Wolfgang Förstner (2016)

Public Titre : Photogrammetric computer vision : statistics, geometry, orientation and reconstruction Type de document : Guide/Manuel Auteurs : Wolfgang Förstner, Auteur ; Bernhard P. Wrobel, Auteur Editeur : Springer Nature Année de publication : 2016 Collection : Geometry and computing, ISSN 1866-6795 num. 11 Importance : 816 p. Format : 21 x 28 cm ISBN/ISSN/EAN : 978-3-319-11549-8 Note générale : Bibliographie Langues : Anglais (eng) Descripteur : [Vedettes matières IGN] Photogrammétrie numérique [Termes IGN] aérotriangulation numérique [Termes IGN] compensation par faisceaux [Termes IGN] couple stéréoscopique [Termes IGN] données maillées [Termes IGN] données vectorielles [Termes IGN] estimation statistique [Termes IGN] géométrie [Termes IGN] géométrie projective [Termes IGN] image 2D [Termes IGN] image 3D [Termes IGN] incertitude géométrique [Termes IGN] ligne (géométrie) [Termes IGN] modèle de Gauss-Markov [Termes IGN] modèle géométrique de prise de vue [Termes IGN] plan (géométrie) [Termes IGN] point [Termes IGN] reconstruction 3D [Termes IGN] reconstruction d'objet [Termes IGN] rotation d'objet [Termes IGN] semis de points [Termes IGN] transformation géométrique [Termes IGN] variable aléatoire [Termes IGN] vision par ordinateur [Termes IGN] visualisation 3D Index. décimale : 33.30 Photogrammétrie numérique Résumé : (Editeur) This textbook offers a statistical view on the geometry of multiple view analysis, required for camera calibration and orientation and for geometric scene reconstruction based on geometric image features. The authors have backgrounds in geodesy and also long experience with development and research in computer vision, and this is the first book to present a joint approach from the converging fields of photogrammetry and computer vision. Part I of the book provides an introduction to estimation theory, covering aspects such as Bayesian estimation, variance components, and sequential estimation, with a focus on the statistically sound diagnostics of estimation results essential in vision metrology. Part II provides tools for 2D and 3D geometric reasoning using projective geometry. This includes oriented projective geometry and tools for statistically optimal estimation and test of geometric entities and transformations and their rela­tions, tools that are useful also in the context of uncertain reasoning in point clouds. Part III is de­voted to modelling the geometry of single and multiple cameras, addressing calibration and orienta­tion, including statistical evaluation and reconstruction of corresponding scene features and surfaces based on geometric image features. The authors provide algorithms for various geometric computa­tion problems in vision metrology, together with mathematical justifications and statistical analysis, thus enabling thorough evaluations. The chapters are self-contained with numerous figures and exer­cises, and they are supported by an appendix that explains the basic mathematical notation and a de­tailed index. The book can serve as the basis for undergraduate and graduate courses in photogrammetry, com­puter vision, and computer graphics. It is also appropriate for researchers, engineers, and software developers in the photogrammetry and GIS industries, particularly those engaged with statistically based geometric computer vision methods. Note de contenu : 1. Introduction 1.1. Tasks for Photogrammetric Computer Vision 1.2. Modelling in Photogrammetric Computer Vision 1.3. The Book 1.4. On Notation Part One - Statistics and Estimation 2. Probability Theory and Random Variables 2.1. Notions of Probability 2.2. Axiomatic Definition of Probability 2.3. Random Variables 2.4. Distributions 2.5. Moments 2.6. Quantiles of a Distribution 2.7. Functions of Random Variables 2.8. Stochastic Processes 2.9. Generating Random Numbers 2.10. Exercises 3. Testing 3.1. Principles of Hypothesis Testing 3.2. Testability of an Alternative Hypothesis 3.3. Common Tests 3.4. Exercises 4. Estimation 4.1. Estimation Theory 4.2. The Linear Gauss–Markov Model 4.3. Gauss–Markov Model with Constraints 4.4. The Nonlinear Gauss–Markov Model 4.5. Datum or Gauge Definitions and Transformations 4.6. Evaluation 4.7. Robust Estimation and Outlier Detection 4.8. Estimation with Implicit Functional Models 4.9. Methods for Closed Form Estimations 4.10. Estimation in Autoregressive Models 4.11. Exercises Part two - Geometry 5. Homogeneous Representations of Points, Lines and Planes 5.1. Homogeneous Vectors and Matrices 5.2. Homogeneous Representations of Points and Lines in 2D 5.3. Homogeneous Representations in IPn 5.4. Homogeneous Representations of 3D Lines 5.5. On Plücker Coordinates for Points, Lines and Planes 5.6. The Principle of Duality 5.7. Conics and Quadrics 5.8. Normalizations of Homogeneous Vectors 5.9. Canonical Elements of Coordinate Systems 5.10. Exercises 6. Transformations 6.1. Structure of Projective Collineations 6.2. Basic Transformations 6.3. Concatenation and Inversion of Transformations 6.4. Invariants of Projective Mappings 6.5. Perspective Collineations 6.6. Projective Correlations 6.7. Hierarchy of Projective Transformations and Their Characteristics 6.8. Normalizations of Transformations 6.9. Conditioning 6.10. Exercises 7. Geometric Operations 7.1. Geometric Operations in 2D Space 7.2. Geometric Operations in 3D Space 7.3. Vector and Matrix Representations for Geometric Entities 7.4. Minimal Solutions for Conics and Transformations 7.5. Exercises 8. Rotations 8.1. Rotations in 3D 8.2. Concatenation of Rotations 8.3. Relations Between the Representations for Rotations 8.4. Rotations from Corresponding Vector Pairs 8.5. Exercises 9. Oriented Projective Geometry 9.1. Oriented Entities and Constructions 9.2. Transformation of Oriented Entities 9.3. Exercises 10. Reasoning with Uncertain Geometric Entities 10.1. Motivation 10.2. Representing Uncertain Geometric Elements 10.3. Propagation of the Uncertainty of Homogeneous Entities 10.4. Evaluating Statistically Uncertain Relations 10.5. Closed Form Solutions for Estimating Geometric Entities 10.6. Iterative Solutions for Maximum Likelihood Estimation 10.7. Exercises Part Three - Orientation and Reconstruction 11. Overview 11.1. Scene, Camera, and Image Models 11.2. The Setup of Orientation, Calibration, and Reconstruction 11.3. Exercises 12. Geometry and Orientation of the Single Image 12.1. Geometry of the Single Image 12.2. Orientation of the Single Image 12.3. Inverse Perspective and 3D Information from a Single Image 12.4. Exercises 13. Geometry and Orientation of the Image Pair 13.1. Motivation 13.2 The Geometry of the Image Pair 13.3 Relative Orientation of the Image Pair 13.4. Triangulation 13.5. Absolute Orientation and Spatial Similarity Transformation 13.6. Orientation of the Image Pair and Its Quality 13.7. Exercises 14. Geometry and Orientation of the Image Triplet 14.1. Geometry of the Image Triplet 14.2. Relative Orientation of the Image Triplet 14.3. Exercises 15. Bundle Adjustment 15.1. Motivation for Bundle Adjustment and Its Tasks 15.2. Block Adjustment 15.3. Sparsity of Matrices, Free Adjustment and Theoretical Precision 15.4. Self-calibrating Bundle Adjustment 15.5. Camera Calibration 15.6. Outlier Detection and Approximate Values 15.7. View Planning 15.8. Exercises 16. Surface Reconstruction 16.1. Introduction 16.2. Parametric 21/2D Surfaces 16.3. Models for Reconstructing One-Dimensional Surface Profiles 16.4. Reconstruction of 21/2D Surfaces from 3D Point Clouds 16.5. Examples for Surface Reconstruction 16.6. Exercises Appendix: Basics and Useful Relations from Linear Algebra Numéro de notice : 22610 Affiliation des auteurs : non IGN Thématique : IMAGERIE Nature : Manuel Permalink : https://documentation.ensg.eu/index.php?lvl=notice_display&id=82915

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Registration quality - towards integration of laser scanning and photogrammetry / Petri Rönnholm (2011)    

Public Titre : Registration quality - towards integration of laser scanning and photogrammetry Autre titre : Atlas of INSPIRE implementation methods Type de document : Rapport Auteurs : Petri Rönnholm, Auteur ; Ingrid Vanden Berghe, Auteur ; Joep Crompvoets, Auteur ; Walter de Vries, Auteur ; Jantien E. Stoter, Auteur Editeur : Dublin : European Spatial Data Research EuroSDR Année de publication : 2011 Collection : EuroSDR official publication, ISSN 0257-0505 num. 59 Importance : 298 p. Format : 21 x 30 cm ISBN/ISSN/EAN : 978-90-5179-768-8 Note générale : Bibliographie Langues : Anglais (eng) Descripteur : [Vedettes matières IGN] Photogrammétrie numérique [Termes IGN] acquisition de données [Termes IGN] analyse comparative [Termes IGN] enregistrement de données [Termes IGN] instrument aéroporté [Termes IGN] intégration de données [Termes IGN] lasergrammétrie [Termes IGN] photogrammétrie numérique Index. décimale : 33.30 Photogrammétrie numérique Résumé : (Auteur)1 : Laser scanning and photogrammetry are powerful 3D data acquisition methods providing both overlapping and complementary information. Currently, integration of laser data and images provides the most complete information for various surveying and 3D modelling tasks. However, this integration requires that both data sets are accurately oriented to the same coordinate system. In 2008, the EuroSDR launched the project "Registration Quality - Towards Integration of Laser Scanning and Photogrammetry" in order to collect knowledge about current registration methods and their performance. The project attracted the involvement of numerous research institutes and companies. Therefore, this test gives a quite extensive set of examples and comparisons of the most important registration strategies today. The empirical results indicated that the relative orientation of airborne laser scanning data and aerial images is a feasible method in order to get data sets within the common coordinate frame. The experiment revealed that, currently, the level of automation was not the most significant factor affecting the quality of registration. More important factors included the type of tie features and the implementation of the methods. The processing time was shortest with most automatic methods, whereas the amount of manual work tended to increase the processing times. It should be noted that many of the methods were still at the developmental stage. It is expected that the performance and processing speed, in most cases, can be enhanced in the future. The test data represented an urban area and many of the methods relied upon certain objects, such as buildings. Therefore, the performance of applied methods in non-built environments should be investigated separately. ; (Auteur)2 : This report is the final report of the EuroSDR project "Atlas of INSPIRE Implementation Methods". In two two-day workshops and one pre-workshop of the INSPIRE Conference in Krakow, June, 2010 we investigated strategies to implement INSPIRE in several members states. We focused specifically on the relations between the implemented strategy and how successful the INSPIRE implementation is perceived in a specific country. A questionnaire was carried out as well. This report describes the project, presents the conclusions and contains the main deliverables of the project which are: -Two workshop reports - Research agenda for the implementation of INSPIRE -A network of SDI-practitioners and scientists across Europe that are strongly involved in the development of INSPIRE SDI-strategies -Scientific paper publications Scientific paper publications: published IJSDIR article [1] and article in progress for CEUS (Journal for Computers, Environment and Urban Systems) -INSPIRE-Conference pre-conference workshop, abstract and presentation -Key documents collection regarding INSPIRE-implementation -Prototype INSPIRE atlas (see: http://www.spatialist.be) Note de contenu : Registration quality - towards integration of laser scanning and photogrammetry 1 INTRODUCTION 2 DESCRIPTION OF THE PROJECT 2.1 Aims of the project. 2.2 Participants. 2.3 Description of test data 2.4 Reference data. 2.5 Test procedure. 3 SHORT DESCRIPTIONS OF THE APPLIED METHODS 3.1 Method of the Aalto University School of Engineering (Aalto). 3.2 Method of the Dublin Institute of Technology (DIT). 3.3 Method of the Finnish Geodetic Institute, Aalto University School of Engineering and TerraSolid Oy (FGI et al.) 3.4 Method of the Independent Research Group on Geospatial (IRGG) 3.5 Method 1 of the National Geographic Institute, Spain (IGN-1). 3.6 Method 2 of the National Geographic Institute, Spain (IGN-2) . 3.7 Planar patches method of the University of Calgary (UofC-1). 3.8 Straight lines method of the University of Calgary (UofC-2). 3.9 Combined method of the University of Calgary (UofC-3). 3.10 Method of the University College London (UCL). 3.11 ICP-based method of the University of Stuttgart (IFP-1). 3.12 Point-Based method of the University of Stuttgart (IFP-2) 3.13 Method of the Vienna University of Technology (IPF) 4 RESULTS AND DISCUSSION 4.1 Comparison of planimetric accuracies. 4.2 Comparison of vertical accuracies. 4.3 Comparison of accuracies in rotations. 4.4 Influence of the type of tie features 4.5 Influence of the analytical characteristics of the applied methods 4.6 Influence of the level of automation 4.7 Processing time 5 SUMMARY AND CONCLUSIONS 6 ACKNOWLEDGEMENTS 7 REFERENCES Atlas of INSPIRE implementation 1 INTRODUCTION 2 QUESTIONNAIRE 2.1 Introduction 2.2 Questions 2.3 Analysis of the questionnaire responses 2.4 Conclusions of the questionnaire 3 REPORT OF 1ST PROJECT WORKSHOP, 29 & 30 APRIL 2009 3.1 Introduction 3.2 Brief description of the Workshop 29 - 30 April 2009 3.3 Research questions identified by the participants 3.4 Main observations during the workshop 3.5 Remarkable quotes 4 REPORT OF 2ND PROJECT WORKSHOP 14/15 JANUARY 2010 4.1 Introduction 4.2 Successes and disappointments 4.3 Propositions 4.4 Research agenda 4.5 Concluding remarks 5 PRE-CONFERENFE INSPIRE WORKSHOP, 22 JUNE 2010 6 CONCLUSION Numéro de notice : 10477 Affiliation des auteurs : non IGN Thématique : IMAGERIE Nature : Rapport d'étude technique En ligne : http://www.eurosdr.net/sites/default/files/uploaded_files/eurosdr_publication_nd [...] Format de la ressource électronique : URL Permalink : https://documentation.ensg.eu/index.php?lvl=notice_display&id=62449

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Documents numériques

en open access Eurosdr bull 59 Adobe Acrobat PDF

Papers on digital elevation, image correlation and map maintenance / Kennert Torlegard (1987)

Public Titre : Papers on digital elevation, image correlation and map maintenance Type de document : Rapport Auteurs : Kennert Torlegard, Éditeur scientifique Editeur : Stockholm : Royal Institute of Technology Année de publication : 1987 Collection : Fotogrammetriska meddelanden, ISSN 0071-8068 num. 53 Importance : 268 p. Format : 21 x 30 cm Langues : Anglais (eng) Descripteur : [Vedettes matières IGN] Applications photogrammétriques [Termes IGN] appariement d'images [Termes IGN] mise à jour cartographique [Termes IGN] modèle numérique de surface [Termes IGN] photogrammétrie numérique Index. décimale : 33.30 Photogrammétrie numérique Note de contenu : - Paper on the topic Digital Elevation Model (DEM) - Papers on the topic Digital Photogrammetry - Miscellaneous topics Numéro de notice : 25024 Affiliation des auteurs : non IGN Thématique : IMAGERIE Nature : Rapport de recherche Permalink : https://documentation.ensg.eu/index.php?lvl=notice_display&id=92973

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Accuracy improvement in digital matching / Dan Rosenholm (1986)

Public Titre : Accuracy improvement in digital matching Type de document : Rapport Auteurs : Dan Rosenholm, Auteur Editeur : Stockholm : Royal Institute of Technology Année de publication : 1986 Collection : Fotogrammetriska meddelanden, ISSN 0071-8068 num. 52 Importance : 137 p. Format : 21 x 30 cm Note générale : bibliographie Langues : Anglais (eng) Descripteur : [Vedettes matières IGN] Photogrammétrie numérique [Termes IGN] appariement automatique [Termes IGN] coefficient de corrélation [Termes IGN] méthode des moindres carrés [Termes IGN] niveau de gris (image) [Termes IGN] parallaxe [Termes IGN] photographie aérienne Index. décimale : 33.30 Photogrammétrie numérique Résumé : (auteur) Accuracy aspects of matching algorithms based on the least square method are investigated. Parallaxes computed automatically with matching methods have been compared to manual measurements made in a stereocomparator. Examples have been taken from large scale and small scale aerial photographs and from close-range photogrammetry. Different linear geometric and radiometric parameters have been used. Other changes in the algorithm have also been investigated such as the effect of using different window sizes. The results show that window sizes below 20X20 pixels should not be used and, that affine parameters should not be used when the window size is lower than 30X30 pixels, both for reasons of reliability. The precision obtainable was between 10-15 pm, expressed as r.m.s. Gross error detection is to a large extend possible. The methods for matching of single points are not operative at this stage of development. In the investigation, a multi-point matching method using finite elements has been formulated. Parallaxes of points in a grid connected with bilinear elements are computed simultaniously directly from image data using the least square technique. Constraints, such as minimizing of the curvature, are implemented as ficticious observations. Methods for inclusion of breaklines and discontinuites, where it is possible to include the position as as unknown, are also formulated. Prelimi-nary tests of the multi-point matching method have been performed. Note de contenu : 1- Introduction 2- Investigation methods 3- The basic least square matching algorithm 4- Additional parameters 5- Miti-point matching 6- Other investigated improvements 7- Results 8- Discussion 9- Conclusion Numéro de notice : 25025 Affiliation des auteurs : non IGN Thématique : IMAGERIE Nature : Rapport de recherche Permalink : https://documentation.ensg.eu/index.php?lvl=notice_display&id=92975

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Digital matching of stereo Images / Kennert Torlegard (1986)

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[Selected papers presented at international symposia] / Kennert Torlegard (1983)

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