XVIIIth Congress: XVIIIth Congress

kraus, karl; waldhäusl, peter

Bibliographic data

Multivolume work

Persistent identifier:: 1667435949

Title:: XVIIIth Congress

Sub title:: Vienna, Austria 1996

Year of publication:: 1996

Place of publication:: Vienna

Publisher of the original:: Austrian Society of Surveying and Geoinformation

Identifier (digital):: 1667435949

Language:: English

Editor:: Kraus, Karl; Waldhäusl, Peter

Corporations:: International Society for Photogrammetry and Remote Sensing, Congress, 18., 1996, Wien; International Society for Photogrammetry and Remote Sensing

Adapter:: International Society for Photogrammetry and Remote Sensing, Congress, 18., 1996, Wien; International Society for Photogrammetry and Remote Sensing

Founder of work:: International Society for Photogrammetry and Remote Sensing, Congress, 18., 1996, Wien; International Society for Photogrammetry and Remote Sensing

Other corporate:: International Society for Photogrammetry and Remote Sensing, Congress, 18., 1996, Wien; International Society for Photogrammetry and Remote Sensing

Document type:: Multivolume work

Volume

Persistent identifier:: 1667437070

Title:: XVIIIth Congress

Scope:: 230 Seiten

Year of publication:: 1996

Place of publication:: Vienna

Publisher of the original:: Austrian Society of Surveying and Geoinformation

Identifier (digital):: 1667437070

Illustration:: Illustrationen, Diagramme

Signature of the source:: ZS 312(31,B1)

Language:: English

Additional Notes:: Erscheinungsdatum des Originals ist anhand des Copyrightjahrs ermittelt.

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

Editor:: Kraus, Karl; Waldhäusl, Peter

Corporations:: International Society for Photogrammetry and Remote Sensing, Congress, 18., 1996, Wien; International Society for Photogrammetry and Remote Sensing; International Society for Photogrammetry and Remote Sensing, Commission Primary Data Acquisition

Adapter:: International Society for Photogrammetry and Remote Sensing, Congress, 18., 1996, Wien; International Society for Photogrammetry and Remote Sensing; International Society for Photogrammetry and Remote Sensing, Commission Primary Data Acquisition

Founder of work:: International Society for Photogrammetry and Remote Sensing, Congress, 18., 1996, Wien; International Society for Photogrammetry and Remote Sensing; International Society for Photogrammetry and Remote Sensing, Commission Primary Data Acquisition

Other corporate:: International Society for Photogrammetry and Remote Sensing, Congress, 18., 1996, Wien; International Society for Photogrammetry and Remote Sensing; International Society for Photogrammetry and Remote Sensing, Commission Primary Data Acquisition

Publisher of the digital copy:: Technische Informationsbibliothek Hannover

Place of publication of the digital copy:: Hannover

Year of publication of the original:: 2019

Document type:: Volume

Collection:: Earth sciences

Chapter

Title:: GEOMETRIC CALIBRATION OF THE STEREOSCOPIC CCD LINESCANNER MOMS-2P W. Kornus, M. Lehner, F. Blechinger, E. Putz

Document type:: Multivolume work

Structure type:: Chapter

GEOMETRIC CALIBRATION OF THE STEREOSCOPIC CCD-LINESCANNER MOMS-2P W. Kornus!, M. Lehner !, F. Blechinger?, E. Putz? ! German Aerospace Research Establishment (DLR), Institute of Optoelectronics, Optical Remote Sensing Division D-82230 Wessling, Germany; e-mail: wkQoe.op.dlr.de, manfredQoe.op.dlr.de ? Daimler-Benz Aerospace AG (Dasa), Dornier Satellitensysteme D-81663 Munich, Germany; e-mail: 100347.3010@compuserve.com ? Technical University Munich, Chair for Photogrammetry and Remote Sensing D-80290 Munich, Germany; e-mail: putzOphoto.verm.tu-muenchen.de Commision |, Working Group 3 KEY WORDS: Calibration, Scanner, Accuracy, Matching, Simulation, Geometric Scanner Calibration, Multi Scale Matching, MOMS-2P/PRIRODA Mission ABSTRACT This paper describes the geometric calibration of the Modular Optoelectronic Multispectral Scanner MOMS-2P, which will collect threefold stereoscopic panchromatic and multispectral imagery of the earth with 18 m and 6 m ground pixel size from the PRIRODA module of the Russian space station MIR. The goal of the geometric calibration is the knowledge of the exact object side image angles for a precise photogrammetric three-dimensional reconstruction of the earth's surface, considering all geometric influences of the scanner like irregularities of the CCD-arrays, bending and relaxation of the focal plates, distortion of the optics, etc. Prior to the mission the optical system has been calibrated in the laboratory of Daimler-Benz Aerospace AG (Dasa), which is also the developer and manufacturer of the scanner. During the mission a geometric inflight calibration will be performed in order to verify the calibration parameters on a routine basis. The first part of the paper describes the lab-calibration, the equipment, the process and shows also the resulting calibration parameters. The second part deals with the inflight calibration. The principle, the test areas and the mission scenario are outlined. An approach for multi-scale matching using line scanner imagery and existing digital orthoimages is described. Finally the results of a simulation study are presented, showing to which extend the camera parameters can be determined by photogrammetric means under realistic conditions. 1 INTRODUCTION locations are defined by two image angles around two orthog- onal axes with respect to the optical axis of a camera or a During the 10 day lasting D2 mission in spring 1993 the first scanner system. By means of a camera model, these angles threefold along track stereoscopic imagery were recorded from normally are expressed in terms of image coordinates. For space by MOMS-02 [11]. A series of photogrammetric eval- the precise transformation of image coordinates into spatial uations were published, demonstrating its capability of gen- image angles, the camera model must accurately represent erating photogrammetric products like digital terrain models the actual camera geometry implying its perfect knowledge. (DTM) with an accuracy of 10 meters and less (e.g. [1], Since image coordinates are derived by digital measurement [5]. [6]. [8], [10]). After D2, MOMS-02 has been refur- techniques with up to 0.1 pixel precision, the accuracy of the bished and adapted to the PRIRODA environment for a re- geometric camera calibration must not exceed this value, if fly on-board the Russian space station MIR. Besides the now the overall accuracy potential shall not be restricted by the called MOMS-2P, the PRIRODA (Russian: nature) module system itself. In order to meet this requirement the process contains a series of remote sensing sensors (see Figure 1) of the geometric camera calibration has been split into two and will be docked on the MlR-station by mid April 1996. parts: a laboratory (lab-)calibration prior to the mission and MOMS-2P consists of 5 lenses for simultaneous multispec- an inflight calibration accompanying the whole mission. The tral and panchromatic 3-fold stereoscopic data acquisition inflight calibration is of highest importance, since the results with a ground resolution of 18 m and 6 m from approximately of the lab-calibration proved to be reproducible in some cases 400 km height (see Figure 2). The Stereo module consists of only up to 0.5 pixel accuracy. Furthermore, temporal changes 3 lenses with one CCD-array each, providing a forward, a high of the camera geometry appeared in the MOMS-02/D2 evalu- resolution nadir and an aft looking view. Additional 2 lenses ations indicating, that the lab-measurements may not exactly with 2 CCD-arrays each enable multispectral imaging in 4 match the actual camera geometry in space. spectral channels. The MOMS-2P/PRIRODA mission will last at least 18 months and can be considered as preparation The main goal of the lab-calibration is the exact determi- for a future operational and commercial MOMS-03 mission, nation of geometric irregularities of the single CCD-arrays, planned for the end of this decade. The operational deriva- which hardly can be determined by inflight methods. The tion of DTM and digital orthoimages (DOI) of wide parts inflight calibration is for the verification or change detection of the solid earth's surface is a major goal of both missions. of the camera parameters and to determine the orientation The photogrammetric evaluation is based on a measure- of the MOMS-2P camera axes with respect to the MIR co- ment technique using intersecting spatial image rays, whose ordinate system in order to improve the knowledge about the 90 International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B1. Vienna 1996 TV Came IR Spectre JSTOK- 1 VIS/NIR ¢ MOS-OI MW Scan: R-40 A SAR Ar Pri absolu also ti This | conclu calibrz sulting the in missio identi via an and e simule camer means Exten: in the ule. T

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