Quality Analysis of Platform Orientation Parameters for Airborne Laser Profiling Systems

Lindenberger, Joachim

doi:10.1007/978-3-642-74585-0_20

Joachim Lindenberger²

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Summary

Autoregressive integrated (ARI-) processes are introduced for modelling the orientation parameters of airborne sensor platforms. The ARI-model comprises a filtering algorithm and achieves several quality criteria. Empirical results are presented from applications of GPS and INS during aircraft flights.

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References

Boswinkel, D.; Witmer, R.; v. d. Vegt, J.W. (1988): Utilisation of GPS in large scale photogrammetry; presented paper ISPRS Congress Kyoto Comm. I
Google Scholar
Förstner, W. (1984): Determination of the additive noise variance of observed autoregressive processes using variance component estimation technique; Schriftenreihe Heft 10; Institut für Photogrammetrie Universität Stuttgart
Google Scholar
Friess, P. (1988): Empirical accuracy of positions computed from airborne GPS data; pres. pap. ISPRS 16th Congress Kyoto Commission I II
Google Scholar
Hartl, Ph.; Wehr, A. (1986): Chancen der GPS Satellitennavigation für die Luftbi1dphotogrammetrie; BuL, Vol. 54, Heft 6 1986, pp 221–240
Google Scholar
Haykin, S. ed. (1979): Topics in applied physics vol 34: Nonlinear methods of spectral analysis; Springer-Verlag 1979
Google Scholar
Kay, S.M.; Marple, S.L (1981): Spectrum analysis — A modern perspective; proceedings of the IEEE, vol. 69, no. 11, Nov.1981
Google Scholar
Krabiii, W.B.; Collins, J.G.; Link, L.E.; Swift, R.N.; Butler, M.L. (1984): Airborne laser topographic mapping results; Photogrammetrie Engineering and Remote Sensing, Vol. 50, June 1984, pp 685–694
Google Scholar
Krarup, T.; Juhl, J.; Kubik, K. (1980): Götterdämmerung over least squares adjustment; pres. paper ISP Congress Hamburg Comm III, Int. Arch, of Photogr. vol. 23 B3, pp 369–378
Google Scholar
Lindenberger J. (1987): Consideration of observation errors when modelling digital terrain profiles; Proceedings of the ISPRS WG II1/3 Intern. Colloquium: Progress in terrain modelling, TU Denmark Lyngby, pp 227–237
Google Scholar
Schreier, H.; Lougheed, J.; Gibson, J.R.; Russell, J. (1984): Calibrating an airborne laser profiling system; Photogrammetrie Engineering and Remote Sensing, Vol. 50, November 1984, pp 1591–1598
Google Scholar

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Institut für Photogrammetrie, Universität Stuttgart, Germany
Joachim Lindenberger

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Joachim Lindenberger
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Institut für Anwendungen der Geodäsie im Bauwesen, Universität Stuttgart, Keplerstraße 10, 7000, Stuttgart 1, Germany
Klaus Linkwitz & Ulrich Hangleiter &

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Lindenberger, J. (1989). Quality Analysis of Platform Orientation Parameters for Airborne Laser Profiling Systems. In: Linkwitz, K., Hangleiter, U. (eds) High Precision Navigation. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-74585-0_20

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DOI: https://doi.org/10.1007/978-3-642-74585-0_20
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-74587-4
Online ISBN: 978-3-642-74585-0
eBook Packages: Springer Book Archive

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