nbul 2004
rthophotc
g them or
rect some
on, a post
iat means
i that was
itium 4, 2
iyed with
, a portion
' (c).
buildings
n in figure
:G format,
hey can be
any GIS
ght values
: the ortho
e (Bornaz,
ytho solid
ge (RGB)
rized in 3
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B4. Istanbul 2004
bytes;
e 1 height value derived from the DDTM and
memorized as an integer (2 or 4 bytes).
de
US gae gk Gu» Wi
IER
WO e]
N
| : :
Fig. 16: A GIS visualization of orthophoto images
If the height is expressed in cm, 2 bytes can represent a value
that is between -327.67 m and 4327.68 m. The memory
required to store a ortho solid image is only 66 96 greater than a
simple orthophoto. If the considered heights are greater than
these limits, 4 bytes that are able to represent any possible value
in floating point format (up to 9999.99 m) can be used.
This new project permits to extract 3D information from the
described objects in an easy and cheap way. In fact, an *ad hoc"
software, that allows simple functions to query an ortho solid
image, has been developed in Visual Fortran (with GINO 6.0
graphic libraries): this package provides zoom and pan
functions, a 3D coordinate viewer and some measurement tools
that are easy to use even by unskilled operators. The Windows
Un
O2
interface of this software is shown in figure 17.
4981086.00
——— uh
Figure 17: An example of an Ortho Solid Image
8. CONCLUSIONS
The true digital orthophoto is a product that is particularly
suitable for the representation of urban areas by large scale
maps and it is an important instrument for the integration of the
practical aspects of GIS/LIS in a municipal environment. The
generation of a DDTM through the use of already existing 3D
digital cartography leads to a reduction of the production costs
of the orthophoto, making it necessary to restitute only some
monumental and new buildings. The ACCORTHO software,
integrated with the GENEDDTM module, after the
modifications that have here been described, allows true
orthophotos to be produced in a quick and cheap way with a
high degree of automation. The Ortho Solid Image is a new
user-friendly tool that merges the image information contained
in true orthophotos with the height information of DDTMs, to
give a complete 3D description of the represented object.
References
F. Amhar, R. Ecker, 1996. An integrated solution for the
problems of 3D man-made objects in digital orthophotos.
International Archives of Photogrammetry and Remote Sensing,
Vol. XXXI, Part B4
K. Kraus, 1997. Photogrammetry. Reading: Dümmlers Verlag.
Vol. 2
Spalla A., 2002. La cartografia 3D della TIM prodotta con
fotogrammetria diretta. Atti del Convegno internazionale “La
fotogrammetria nell'era inerziale", Pavia, 13-14 giugno
M. A. Brovelli, M. Reguzzoni, F. Sansó, G. Venuti, 2001,
Modelli matematici del terreno per mezzo di interpolatori a
spline, Bollettino SIFET, supplemento al n. 2/2001
Dequal S., Lingua A., 2001. True orthophoto for Architectural
Surveys. Proc. *XVIII" International Symposium of CIPA —
Postdam (Germany)". pp. 269-276
Bornaz L., Dequal S. 2003. The solid image: a new concept and
its applications. Proc. “XVIII” International Symposium of
CIPA — Postdam (Germany)”
