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Figure 12. Estimated time needed to complete the Boie pipeline project (left) and the Holstentor project (right)
In the future increased automation in data post processing will
be necessary to achieve increased acceptance of this technology
in the market. This will consequently lead to the use of laser
scanning systems as efficient workhorses in surveying and
geomatics. One can expect that laser scanning systems will be
developed into multi sensor systems with a digital camera for
the combination of point clouds and high resolution images and
a GPS/INS for positioning and/or automatic geo-referencing of
the point clouds. The combination with geodetic measuring
procedures was already concerned with the further development
of the Cyrax 2500, the HDS 3000. In the future the systems will
become faster, more precise, more convenient and, hopefully,
also less expensive. Possible collaborations/co-operations
between universities, industry and system manufacturers will
contribute to the improvement of and the market acceptance of
the laser scanning systems in the future.
8. REFERENCES
Boehler, W., Bordas Vicent, M., Marbs, A., 2003. Investigating
Laser Scanner Accuracy. Proceedings of XIX" CIPA Sym-
posium, Antalya, Turkey, Sep. 30 — Oct. 4.
Cyra, 2003a. Cyra Technologies Inc. http://www.cyra.com/
(visited 10 July 2003)
Cyra, 2003b. Cyclone 4.0 and Cyrax Basic Training Course —
Session I. Cyra Technologies Inc., European Office, Ri-
jswijk, The Netherlands
Grün, A., Kahmen, H., 2001. Optical 3-D Measurement Tech-
niques V. Wichmann Verlag, Heidelberg.
Grün, A., Kahmen, H., 2003. Optical 3-D Measurement
Techniques VI. Wichmann Verlag, Heidelberg.
Jahn, I. (2003): Das CYRAX 3 D-Laserscanning-System —
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der Firma Boie und des Lübecker Holstentores. Unpub-
lished diploma thesis, Department of Geomatics, HAW
Hamburg, September
Johansson, M., 2003. Explorations into the behaviour of three
different high-resolution ground-based laser scanners in the
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Proceedings of the CIPA WG 6 International Workshop on
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http://www.isprs.org/commissionS/workshop.
Kersten, Th., Sternberg, H., Mechelke, K., Acevedo Pardo, C.,
2004.Terrestrial laser scanning system Mensi
GS100/GS200 - Accuracy tests, experiences and projects at
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Lichti, D.D., Gordon, S.J., Stewart, M.P., Franke, J., Taskiri,
M., 2003. Comparison of digital photogrammetry and laser
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Luhmann, T., 2002. Photogrammetrie und Laserscanning —
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Luhmann, T. (2003): Photogrammetrie, Laserscanning, Opti-
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3D-Messtechnik — Beitráge der 3. Oldenburger 3D-T. age
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