c tools for the
to display the
simultaneously,
bined evaluation
tion of the scan
atures of a 3D -
| without having
ingle frames can
: the angles of
> definition of a
> or triangulated
high resolution
of single bricks
inates, in three
x
vo
processing
bal coordinates,
ed out, and the
. All the data is
of the operating
eously after the
ie points. The
| typ. 4 — 7mm
rocess has been
display of the
uds of all scan
following scan
ws of the final
5. Istanbul 2004
International Archives of the Photogrammetry, Remote Se
A total of 24 adjacent scan positions around the governing
place - that had been considered as the object of main interest
and highest priority by ICHO experts - and one
nsing and Spatial Information Sciences, Vol XXXV. Part B5. Istanbul 2004
supplementary position from the opposite outer wall of Arg-
E-Bam were chosen.
Figure 5: Merged point cloud of different scan positions within RiSC
AN PRO, left: colour encoded, right: true coloured
3. CONCLUSION
The characteristics of the most powerful instrument of the
RIEGL LMS scanner series, the LMS-Z420i, are: its narrow
beam divergence (0.2 mrad only), its operating range (up to
800m), and its single-shot accuracy (10 mm, which can be
improved up to 5mm by scan sequences). As a consequence,
the raw scan data provide a precious basis for different post
processing activities. The time-of-flight laser measurement
technique employed, allowing long range performance and
reliable data acquisition even for locations difficult to access,
is perfectly completed by the photogrammetric method (high
pixel density, hence definition and vectorisation of edges and
high accuracy of details.). Thus, the versatile hybrid
instrument corresponds ideally to architectural, topographic
and archaeological requirements. The high speed of
operation allows a quick data acquisition, and it is therefore
possible to build up an archive of historical sites and
monuments for multipurpose post-processing, not only under
such tragic circumstances like the catastrophic earth-quake in
Bam.
REFERENCES
RIEGL Laser Measurement Systems GmbH, technical data at
www.riegl.com , 2004 and www.nprco.com
Ullrich, et al, Time-of-flight-based 3D imaging sensor with
true-color channel for automated fexturing, Optical 3-D
Measurement Techniques V, Conference Proceedings p. 2-9,
Vienna, October 1-4, 2001.
Ullrich, R. Schwarz, H. Kager, Using hybrid multi-station
adjustment for an integrated camera laser-scanner system. In
Optical 3-D Measurement Techniques VI, Volume 1
September 2003 .
>
ScanDig3D, orthophoto-plugin for Autocad CAD software,
Homepage www.scandig3d.com, 2004.
PHOCAD photogrammetric plugin “PHIDIAS” for
Microstation CAD software, Homepage www.phocad.de,
2004
Effkemann, Integrierte Auswertung photogrammetrischer
Aufnahmen und. Laserscandaten mit PHIDAS, Oldenburger
3D-Tage 2003.
ACKNOWLEDGEMENTS
The authors would like to thank ICHO experts and
authorities who facilitated, supported and co-operated to
achieve the best results, as well as Rayan Naghsheh Co. who
provided the GPS and surveying team, furthermore Mr. M.
Noor Allah Doost who managed the surveyors, and all those
hard working and impressively motivated helpers from Bam
who assisted the surveying project.
APPENDIX
Index of illustrations
Figure 1. Bam Citadel before and after the earth quake Figure 4. Results table: a) coloured point cloud, b)
Figure 2. RIEGL LMS Z420i in Bam Citadel decimated mesh with high resolution texture,
Figure 3. PHIDIAS mono plot post processing (point c) orthophoto, d) mono-plot post processing
cloud, photograph and CAD drawing within one window) Figure 5. Merged point cloud of different scan
positions within RISCAN PRO
