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DEFINING THE FUTURE OF ARCHITECTURAL PHOTOGRAMMETRY 
P. Waldhäusl 
Institute of Photogrammetry and Remote Sensing 
Vienna University of Technology, Vienna, Austria 
Invited Paper, ISPRS Commission V, Working Group 5 
ABSTRACT: 
In classic times of architectural photogrammetry we have been limited to special cameras, special instruments and 
special cases. Nowadays, photogrammetry is possible nearly with any camera, it uses more general instruments and 
it is more flexible. Photogrammetry is going to be extended up to a real-time videogrammetry. Professional precision 
photogrammetry needs more professionality than before, but it is also more powerful than before owing to the 
potential of electronic data processing. Ground-(=object-) control can be reduced to a great extent by combined data | 
adjustment. Cheaper cameras and simpler photogrammmetric systems are in use and will be further developed. 
Powerful data bases are waiting for the data, their exchange, use and revision. It is time to redefine the future of 
architectural photogrammetry as the most powerful tool to collect cultural and metric information about the 
architectural heritage, but not only of two percent of it within hundred years as before, in future we have to speed 
it up by a factor of 250 to get the job properly done, hopefully in time, i.e. within the next generation. ! 
KEY WORDS: Cultural heritage documentation, simple methods, international cooperation, CIPA 
THE CHANGED TECHNICAL SITUATION 
Since the last renaissance of architectural photo- 
grammetry in the nineteen-sixties and -seventies the 
methodology of terrestrial photogrammetry has changed 
significantly. It is not limited to special cameras any 
more. New, more universal and cheap cameras and 
simple photogrammetric systems for restitution are 
available and in use, and will be further developed. The 
"normal case" is still economical and guarantees stere- 
oscopy. But there has not been enough demand any 
more for fixed base stereocameras, and thus they are 
not being produced any more. In practice, we use in- 
stead medium and small format, semimetric or even 
non-metric cameras. Instead of strictly normal case we 
use the nearly normal and the convergent case, but 
with better base-distance-ratios. Additional oblique and 
diagonal or cross shots form stable and accurate bundle 
blocks (Schlégelhofer, 1989). Restitution with analytical 
plotters after bundle block adjustment allows for a 
maximum of flexibility and reliability. Ground-( = object-) 
control can be reduced considerably, it is partly re- 
placed by combined data adjustment. We have learnt to 
reduce object control to a reliable minimum (Kotowski 
et al., 1988, 1989; Waldhäusl/Peipe, 1990) and to 
arrange photography in such a way that the interior 
orientation can be determined simultaneously with 
bundle block adjustment without any singularities 
(Wester-Ebbinghaus, 1986). Analytical photogrammetry 
doesn't work from image to map any more, but rather 
from image to the monitor screen where the final edit- 
ing is done prior to storage in data bases and/or output 
on plotter. And plotting is not done any more at a pre- 
determined scale, only, but at various scales as pre- 
ferred for the practical tasks. The precision of meas- 
urement has to be adapted to the requirements rather 
than to a plotting scale. During the last years, digital 
photogrammetry has been further developed. The digital 
orthophoto is becoming daily practice (Ecker, 1991), 
multiphoto image matching (Baltsavias, 1991) and new 
digital cameras, scanners and a photoraster plotter 
(Ecker/Jansa, 1989) promise a rather quick end of the 
photographic age. Summarizing we see that photo- 
grammetry and digital image processing have been and 
will be further developed and that we have at our dis- 
posal a much more powerful technology than ten or 
twenty years ago. 
Similarly, we recognize changes in the methodology of 
the architects. They also work with computer graphics 
and ask for the portability of data. Some architects 
learnt to use photogrammetry by themselves, especially 
with simplified technology as Rolleimetric or Elcovision, 
and further systems will intensify this trend (Benning, 
1992). As protection of environment has become one 
767 
of the main issues in the public, the architects have to 
present, more and more, exact perspective simulations 
of their projects prior to contracting, a task, which is 
relatively new on the market. 
The computerized photogrammetrical technology of 
today needs more professionality than the rather simple 
and specialized technology used in architectural photo- 
grammetry in the past. In architectural photogrammetry 
this higher professionality is not yet generally available. 
Something must happen. 
THE UNCHANGED DEMAND FOR ARCHITECTURAL 
PHOTOGRAMMETRY 
The "Convention for the Protection of Cultural Property 
in Case of Armed Conflict" was a resolution of the 
General Conference of UNESCO in The Hague in 1954. 
Already in 1954 it was signed by fifty states and since 
then by many more. The Convention was much too 
late to protect the Indian architecture of the Americas 
during the time after Columbus. It was also too late for 
Warsaw, Le Havre, Dresden, and Hiroshima, towns, our 
ancestors have built once with great effort for many 
more generations to come. Iraq has signed the Conven- 
tion and, in spite of that, Kermanshah and Kuwait have 
been destroyed. Yugoslavia has signed the Convention 
as one of the first countries. Article 132 of the Yugosla- 
vian Penal Code stipulates that any person who orders 
or who carries out the destruction of cultural property 
or historical monuments, buildings or institutions dedi- 
cated to science, art, or education or to humanitarian 
aims ... shall be liable to imprisonment. In spite of that, 
Dubrovnik, Sarajevo, Osijek, and Mostar and many 
other places with ancient architecture have been de- 
stroyed recently, in order to tear out the cultural roots 
of the political enemy. - We still remember that in Ro- 
mania the caterpillars have destroyed many of the old 
villages, where generations have felt at home, and 
replaced them by prefabricated mass silos. In Syria, 80 
% of the Byzantine architecture, which has been regis- 
tered still in 1910, disappeared until 1980; the old 
palaces, churches and villas have been used as quarries, 
where the poor - they have my sympathy - as well as 
the rich took the stones to build up simple shelters and 
rather primitive houses. In Vienna, Austria, and the 
same in many European towns, the passion for the 
modern as well as pure pursuit of profit destroyed more 
than the Second World War did. The only difference: no 
general massacres in these cases. 
Other threats for the inherited architecture are earth 
quakes, land slides, inundations, storms, conflagrations, 
avalanches. Such events occur without prior notice. We 
should be prepared for such events.