Summary
Geodesy reaches a new quality of performance with the development of computer- aided measurement systems. Compared to satellite techniques well suited for global tasks, close range area techniques are achievable with unseen accuracy and unseen sampling rates. Inertial measurement techniques based on purely dynamic principles will change the educational requirements of geodesists and surveyors. This paper summarizes principles of geodetic measurement techniques and shows with examples the developement to dynamic measurement techniques in close range area. The convergence of photogrammetric and surveying techniques with respect to realtime positioning is obvious.
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Literature:
Bayer, G. (1988): Motorized Electronic Theodolites — High Precision Measurement Robots for Surveying, Int. Workshop High Precision Navigation, SFB 228, Stuttgart
Bayer, G., Krzystek, P. (1986): Arbeiten und Ergebnisse der Teilprojekte D1/D3. Arbeits- und Ergebnisbericht 1984 — 1986, Sonderforschungsbereich 228 “Hochgenaue Navigation”, Stuttgart
Bayer, G., Krzystek, P., Möhlenbrink, W. (1988): Realtime Positioning of Moving Objects by Dynamic Target Tracking, ISPRS-Congress, Kyoto
Britting, K.R. (1971): Inertial Navigation System Analysis, Wiley-Inter- science, New York
Conati, F. C. (1977): Real-Time Measurement of Threedimensional Multiple Rigid Body Motion, S. M. Thesis, Massachusetts Institute of Technology, Inne
Dickmanns, E.D. (1988): Vehicle Guidance by Computer Vision. Int. Workshop High Precision Navigation, SFB 228, Stuttgart
Hiller, M. (1983): Mechanische Systeme, Springer Verlag, Berlin
Hof, A.; Pfeiffer, T. (1985): Räumliches Wegmeßsystem, 3D-Interferometer GMR- Bericht Nr. 6, März, S. 151 –165
Janocha, H., Marquardt, R. (1979): Universell einsetzbares Wegmeßsystem mit analog anzeigenden, positionsempfindlichen Photodioden. Teil 1: Eigenschaften der verwendeten zweiachsigen Photodioden. Technisches Messen tm 1979, Heft 10, S. 369 –373
Kirschstein, M. (1980): Verfahren zur berührungslosen dreidimensionalen Formund Verformungsmessung, Dissertation, Universität Stuttgart
Krauss, H. (1983): Das Bild-n-Tupel. Ein Verfahren für photogrammetrische Ingenieurvermessungen, Dissertation, Universität Stuttgart, DGK Reihe C, Heft 276, München
Krzystek, P. (1988): High Precision Surveying of Moving Objects by Electronic Cameras, Int. Workshop High Precision Navigation, SFB 228, Stuttgart
Lindlohr, W., Wells, D. (1985): GPS Design Using Undifferenced Carrier Beat Phase Observations, Manuscripta Geodaetica, Springer Verlag, Berlin — Heidelberg
Möhlenbrink, W. (1988): Realtime Surveying in Close Range Area with Inertial Navigation Systems and Optical Target Tracking Techniques, Int. Workshop- High Precision Navigation, SFB 228, Stuttgart
Möhlenbrink, W., Krzystek, P. (1984): Messungen windinduzierter Bewegungen an Hochbauten — Erfahrungen und neue Erkenntnisse, I X. Int. Kurs für Ingenieurvermessung, Graz
Möhlenbrink, W., Welsch, D. (1984): Aktions-Reaktions-Analyse thermischer Verformungen an Ingenieurbauten, I X. Int. Kurs für Ingenieurvermessung, Graz
Reigber, Ch. (1982): Abschlußbericht zum Teilprojekt B3 “Figur- und Feldpara- meterbestimmung” des SFB 78 Satellitengeodäsie, DGK Reihe B, Heft 261, München
Rembold, U., Levi P. (1986): Sensors and Control for Autonomous Robots, Preprints Int. Conference Intelligent Autonomous Systems, Elsevier Science Publishers B. V.
Schwarz, K.P. (1986): The Error Model of Inertial Geodesy — A Study in Dynamic System Analysis, Lecture Notes, Fourth Int. Summer School, Admont, Austria
Stieler, B., Winter, H. (1982): Hyroscopie Instruments and their Application for Flight Testing, AGARD, Neuilly Sur Seine
Woltring, H. J. (1976): Calibration and Measurement in 3D-Monitoring of Human Motion by Opto-Electronic Means.II. Experimental Results and Discusión. Biotelemetry, 3, pp. 65 - 97
Schwidefsky, K., Ackermann, F. (1976): Photogrammetrie, Teubner Verlag, Stuttgart
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© 1989 Springer-Verlag Berlin Heidelberg
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Linkwitz, K., Möhlenbrink, W. (1989). Navigational Methods of Measurement in Geodetic Surveying. In: Linkwitz, K., Hangleiter, U. (eds) High Precision Navigation. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-74585-0_2
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DOI: https://doi.org/10.1007/978-3-642-74585-0_2
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