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Proceedings of the Symposium on Progress in Data Processing and Analysis

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fullscreen: Proceedings of the Symposium on Progress in Data Processing and Analysis

Monograph

Persistent identifier:: 856470848

Title:: Proceedings of the Symposium on Progress in Data Processing and Analysis

Sub title:: September 8 - 12, 1990, Dresden, GDR

Scope:: 1 Online-Ressource (396 Seiten)

Year of publication:: 1990

Place of publication:: Berlin

Publisher of the original:: Kammer der Technik

Identifier (digital):: 856470848

Illustration:: Illustrationen, Diagramme

Language:: English

Usage licence:: Attribution 4.0 International (CC BY 4.0)

Publisher of the digital copy:: Technische Informationsbibliothek Hannover

Place of publication of the digital copy:: Hannover

Year of publication of the original:: 2016

Document type:: Monograph

Collection:: Earth sciences

Chapter

Title:: [S 8 Design and Algorithmic Aspects of Digital Photogrammetric Systems]

Document type:: Monograph

Structure type:: Chapter

Chapter

Title:: INTEGRATION OF THE NOS CAMERA CALIBRATION SYSTEM INTO THE IDPF. Roop C. Malhotra

Document type:: Monograph

Structure type:: Chapter

Contents

Table of contents

Proceedings of the Symposium on Progress in Data Processing and Analysis
Cover
ColorChart
Title page
Title page
Copies of this book may be obtained from Gesellschaft für Photograrmetrie und Fernerkundung at KAMMER DER TECHNIK, [...]
Introduction
Commission II PROGRESS IN DATA PROCESSING AND ANALYSIS
Working Group Chairman
CONTENTS
[S 1 Special Session]
ABOUT THE IMPORTANCE OF COMMISSION II WITHIN THE INTERNATIONAL SOCIETY FOR PHOTOGRAMMETRY AND REMOTE SENSING. Jürgen Pietschner
Advances in the Processing and Analysis of Photogrammetric and Remotely Sensed Data. Prof Dr. Klaus Szangolies
[S 2 Manufacturers Forum]
New Developments in the Processing Software for P-Series Planicomp. Johannes Saile, Oberkochen
PHOTOGRAMMETRIC PRODUCTS FROM LEICA. A Stewart Walker
[S 3 Analytical Instruments (WG II / 1)]
Digital Photogrammetric Applications with the Prime-Wild S9 Analytical Plotter. David Wilkins
DICOMAT - The analytical photogrammetric restitution system of Carl Zeiss JENA GmbH. G. Bauer
ANALPRET Computer Assisted and Controlled Plotter for Teaching and Interpretation. M. G. Gerencser, Prof. Dr.
[S 4 Systems for Analysis of Remotely Sensed Data (WG II / 2)]
LOW COST IMAGE PROCESSING ON PERSONAL COMPUTERS: THE MACINTOSH-II BASED DIRIGO SYSTEM. Manfred Ehlers
A low-cost image processing system on a 32-bit RISC microcomputer. Mulder N. J., H. R. Kostwinder and L. J. Blesius
[S 5 Systems for Reception, Recording, Preprocessing, Archiving and Dissemination of Remotely Sensed Data (WG II / 3)]
A Fast Storage Unit With Integrated Database Processor for Image Data. Lieckfeldt, P.; Missling, K.-D. ; Neumann, B.
THEMATIC COMPRESSION OF METEOROLOGICAL IMAGE DATA. Hans-Jörg Grundmann, Adolf Günther, Olaf Hellmuth
A STANDARD METHOD FOR CREATING SELF-DEFINING DATA STRUCTURES FOR INFORMATION ARCHIVE AND TRANSFER. John A. Johnson
LANGUAGE REQUIREMENTS FOR UNDERSTANDING RETRIEVED DATA. Fred C. Billingsley
[S 6 Systems and Instrumentation for Synthetic Aperture Radar Processing (WG II / 4)]
Infrared and Microwave Radiometry for Mineral Identification and Moisture Determination. Dr. rer. nat. K. Schmidt, Dr. sc. H. Weichelt, Dipl. -Ing. W. Herr, Dipl.-Geologe M. Iffert
Some results of microwave measurements during the INTERCOSMOS complex experiments GEOEX, TELEGEO and CARIBE. Horst Weichelt
[S 7 Acquisition and Use of Space Photographic Data (IC-WG I / II)]
Cartographic Potential of Space Images. Karsten Jacobsen
Multispectral photocamera MK-4. Dr. Yu. KIENKO, Dr. I. NENASHEV, Yu. BELOUS
THE COMPOSITING DEVICES FOR PHOTOIMAGES OF MK-4 CAMERA AND PREPARATION OF PHOTOMOSAICS AND PHOTOSKETCHES ON THESE DEVICES. Dr. Yu. KIENKO, Dr. V. KISELEV, Dr . Yu. ORLOV
NEW TOPOGRAPHIC AIR SURVEY CAMERA WITH FORWARD MOTION COMPENSATION AFA-TK-10/18. Afremov V. G., Afanasiev I. Yu., Babashkin N. M, llin V. B., Nekhin S. S.
On QUALITY IMPROVEMENT OF AIRBORNE REMOTE SENSING DATA AND THEIR PROCESSING MEETING THE USERS'DEMANDS. FRANZ PLISCHKE, SUSANN HEENE
TECHNIQUE FOR DETERMINING BRIGHTNESS AND SPATIAL-FREQUENCY CHARACTERISTICS OF TERRAIN FROM AEROSPACE SURVEY MATERIALS. Dr. L. M. Matiyasevich, T. I. Mikheikina, B. V. Svechnikov
PHOTOMETRICAL METHOD OP MAKING THE MAPS OP OPTICALLY-UNIPORM TERRAIN RELIEF. Dr. Kiselev V. V., Dr. Mamnitsky V. I., Dr. Matiyasevich L. M
JOINT USE OF SPECTROZONAL AND RADIO-THERMAL IMAGES OF MICROWAVE RANGE IN PROBLEMS OF INTERPRETATION OF AEROSPACE SURVEY RESULTS. Dr. E. Maslovsky, Dr. V. Troitsky, Dr. Yu. Shestopalov
REMOTE SENSING OF ECOLOGICAL SITUATIONS. Dr. V. A. SUCHTCHENYA
Application of cosmic photographs for inventory and man-making of natural resources. by Arkhipov V. I.
COMPOSITION CODING OF REMOTE SENSING DATA FOR DEVELOPING GEOINFORMATION TECHNOLOGIES OF OF RESEARCH OF NATURAL ENVIRONMENT. N. F. AFANASYEV.
Efficient Technologies for Geological Projects and Nature Protection Studies Using Aero/Space Photography Data in USSR. By A. V. Pertsov and S. G. Slutskaya
DISTINGUISHABLE DETAILS IN AIR PHOTOS. Werner Schubert
PROGRESS IN SPACE PHOTOGRAPHY. KARL-HEINZ MAREK
[S 8 Design and Algorithmic Aspects of Digital Photogrammetric Systems]
PROGRESS AND POTENTIAL OF DIGITAL PHOTOGRAMMETRIC WORKSTATIONS. IAN DOWMAN
DIPS II - Turning a Standard Computer Workstation into a Digital Photogrammetric Station. A. Gruen, H.A. Beyer
CONSEQUENCES OF THE PHOTOGRAMMETRICAL VIEW OF SOLVING SPECIAL TASKS IN DIGITAL PHOTOGRAMMETRY WITH SERIAL COMPUTERS. DR. ERHARD PROSS
An Advanced Digital Stereophotogrammetric System (ADSS)- Current Developments at the Technical University of Berlin. Gerhard Koenig, Wolfgang Nickel, Juergen Storl
Low Cost Digital Photogrammetric System for Education and Training "BIRDMAN". Sunji MURAI and Kesami KOIDO
Off-Line and On-Line Applications of Macro Photogrammetry. Karsten Jacobsen
DIGITAL PHOTOGRAMMETRIC WORKSTATIONS. Peter Lohmann , Christoph Lüken, Gustav Picht
INTEGRATION OF THE NOS CAMERA CALIBRATION SYSTEM INTO THE IDPF. Roop C. Malhotra
ANALYTICAL VERSUS DIGITAL PHOTOGRAMMETRIC TECHNIQUES AND SYSTEMS. BRANKO MAKAROVIC
PHOTOGRAMMETRIC OPEN SYSTEMS. Atef A. Elassal
ANALOG OR DIGITAL MAPPING FROM AERIAL PHOTOGRAPHS? A Contribution to the Conception of Digital Mapping Systems. O. Kölbl
DESCRIBING DIGITAL PHOTOGRAMMETRY BY FUNCTIONAL ANALYTICAL METHODS. DR. ERHARD PROSS
Modular Concept of an Airborne System for Collecting, Processing and Analysis of Remotely Sensed Data. Bach E., Nopirakowski J., Oertel D.
Experimental Airborne Remote Sensing with Infrared-Scanner and Panchromatic CCD Area Array Camera (Camcorder). Weng, A.; Dr. Nopirakowski, J.; Ehrenberg, M.; Georgino, P.; Radtke, B.; Dr. Reulke, R.
[S 9 Additional Paper]
LEAST SQUARES POLYNOMIAL SURFACE FITTING WITH OVERLAPPING DATA. W. P. SEGU
Report to Commission II
ISPRS Intercommission Working Group II/III "DESIGN AND ALGORITHMIC ASPECTS OF DIGITAL PHOTOGRAMMETRIC SYSTEMS" Report to Commission II. H. Ebner, I. Dowman, C. Heipke
Working Group II/l Analytical Instrument Activities. WORKING GROUP MISSION. prepared by Morris L McKenzie
AUTHORS LIST
Cover

Full text

296 
Camera Calibration at NOS 
The NOS stellar camera calibration facility at Cloudcroft, New 
Mexico, was used for the last time in 1987 to calibrate super-wide 
and wide-angle cones for WILD RC-10 and RC-8 aerial mapping cameras. 
NOS presently uses the U.S. Geological Survey (USGS) multicollimator 
camera calibration facility at Reston, Virginia. 
The NOS stellar camera calibration system achieves +/-1 micro-meter 
accuracy. It employs a series of accurately timed exposures of a 
stellar field to determine the internal geometry of frame cameras and 
lens cones. The procedure results in the most comprehensive 
determination of camera constants available to the photogrammetric 
user. The following camera parameters, which are also reported in 
table 1, are determined: 
o calibrated principal distance 
o radial symmetric lens distortion model coefficients 
o decentering lens distortion model coefficients 
o orientation angle of the axis of maximum tangential 
distortion 
o coordinates of principal point and calibrated fiducial 
o calibrated reseau coordinates (for cameras equipped with 
reseau). 
Moreover, the calibration is in a form directly usable in the digital 
environment of the IDPF. 
The USGS multicollimator camera calibration method (Tayman, 1984) 
claims +/-5 micrometers accuracy of determination of geometric 
parameters, such as focal length, symmetric radial lens distortion, 
and so forth. However, the manner in which the lens distortion 
characteristics are determined and reported precludes its direct use 
by the digital photogrammetric systems. It requires some sort of 
interpolation scheme, based on the assumption that the lens system is 
free of decentering distortion anomalies. In cases where decentering 
lens distortions are present to a significant degree, the application 
of distortion corrections will give less than +/-5 micrometer 
accuracy results. This camera calibration system is limited to the 
determination of the following camera constants: 
o calibrated principal distance 
o radial lens distortion (for the four radii, along the main 
diagonals) 
' o coordinates of principal point and fiducials 
o distances between fiducial marks 
This method does not meet the + /-1 to +/-3 micrometers NOS high- 
accuracy requirement. While the NOS stellar camera calibration 
provides the best possible calibration quality (+/-1 micrometer), it 
does so at a significantly higher cost. Operational and maintenance 
costs of the stellar camera calibration facility precludes its 
frequent use for calibrating all of the standard NOS cameras. For 
these reasons, a modified camera calibration system has been 
developed. The capabilities of the USGS facility for multicollimator 
imaging and the NOS high-accuracy measurement and data reduction for 
stellar calibration has been combined into a new NOS camera 
calibration system. 
The NOS camera calibration system can technically be called a 
multiexposure, multicollimator camera calibration system. Multiple

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