urvey to 
Brescia. 
f CIPA, 
1 of the 
boratory 
, NTUA, 
. Makris 
d Back, 
Sensing, 
'orkshop 
:ological 
? of the 
Diploma 
Rural & 
Tapinaki 
dings of 
p. 18-21 
anis, M, 
> design. 
Antalya, 
iction of 
national 
| Spatial 
rs of the 
Imaging, 
pp. 363- 
Olympia 
ical site. 
Remote 
Ll part 5. 
1 “Close 
, Corfu, 
1etrische 
nahmen. 
pp. 516. 
e range 
ch 2003, 
for the 
national 
| Spatial 
os of the 
Imaging, 
pp. 463- 
bul 2004 
3D MULTIMEDIA PRESENTATIONS - INTEGRATING REMOTE SENSING, 
PHOTOGRAMMETRIC MODELLING AND CARTOGRAPHIC VISUALISATION 
M. Jobst 
Research Group Cartography, Institute of GI and Cartography, Technical University of Vienna, 
Erzherzog Johann Platz 1, A-1040 Vienna, jobst@cartography.tuwien.ac.at 
JOBSTMedia Prisentation Verlag, Welzeneggerstrasse 84, A- 9020 Klagenfurt, office@jobstmedia.at 
KEY WORDS: cartography, multimedia, virtual reality, visualisation, exploration, communication 
ABSTRACT: 
Recent developments in computer science have influenced the use of Geo-imagery by expert groups and the general public. The 
processing methods of remote sensing results and photogrammetric recording have became more accurate, effective and the work 
flow is accelerated. The results, in general, are often used for engineering, documentation purposes and for the communication of 
environmental systems. By this, is meant that the understanding of the system plus its internal coherence is improved by the use of 
new digital presentation methods. 
Cartography, as the communication interface of different user groups, tries to find and use more effectivly methods for 
communicating spatial information, by integrating the results of remote sensing and photogrammetry. With the use of multimedia, in 
the field of multimedia cartography, a new integrative communication form that uses interactivity, multitasking and different ways of 
coding information, can be explored. It has created a new paradigm for the visualisation of natural and cultural information related to 
topography. 
Within the cartographic communication process 3D multimedia cartography uses both symbolisation and generalisation to build 
communication models. In addition, for very large scales, elements of the data management model, like photogrammetric models of 
objects, may be directly included in these types of cartographic presentations. The focus is to understand relationships between 
spatial objects using the techniques of Geo-communication. 
This paper results from the integration of Geo-imagery and products from photogrammetry into the cartographic communication 
process using 3D multimedia cartography. It shows the effects on common understanding in terms of information and highlights the 
possibilities of software implementation methods. 
1. INTRODUCTION 
The introduction of digital technologies and thus the use of 
multimedia components within cartographic information 
processing has extended one of the main tasks of cartography, 
the sustainable communication of spatially related information. 
Applications in cartography range from navigation to geo- 
visualisation. Navigation tasks follow the primary goal of 
finding and moving to a particular location. Therefore the main 
focus of this research is to understand how people navigate 
through the environment. Oppositely, the purposes of Geo- 
visualisation are to assist a user in understanding the Earth's 
environment, and thus to support the construction of 
knowledge. This target-oriented aspect, for providing a 
sustainable communication system would be adequate for 
cutural heritage applications. 
Geo-visualisation using multimedia 3D cartography appears to 
provide serious support for knowledge acquisition. Depending 
on the grade of immersion, an intuitive understanding of the 
visualisation is possible. This may be used to establish a 
common basis within the “islands” of the reality, the mapmaker 
and the user. 
In order to enable an effective communication, so as to avoid 
information-overload, and understanding, the virtual 
environment in a cartographic application has to be simplified, 
interpreted according to user needs and augmented with 
multimedial components. In a large-scale view digital models 
from photogrammetry may be useful. This is because overviews 
of an area or a region require some simplification due to the 
perception of information and semiotics. 
Cultural heritage has the intent to identify, protect, conservate, 
present and transmit cultural and natural objects, including 
landscapes, for future generations (World Heritage Convention 
1972). This is the focus of this research project, to build a geo- 
visualisation product to assist the understanding of the 
environment. Using multimedia ^ cartography with 
photogrammetry and remote sensing appears to be a useful 
*toolbox" to support the work of cultural heritage and its 
function of bridging "cultural continents". 
This paper describes the need for an environmental overview 
and knowledge acquisition tool, applied to cultural heritage. 
Advanced offerings of precision photogrammetry and 
multimedia 3D have to be combined to empower a precise 
working and presentation environment. Selected examples 
illustrated are first steps of prototype realisation and related 
cartographic research. 
2. DEFINING AN APPLICATION AREA 
Geo-imagery assists a wide range of application areas in spatial 
related topics. Its functional qualities and characteristics enable 
the bridging of “continents” in economic, natural and cultural 
aspects. Hence it is also an elementary tool for understanding 
and accepting cultural diversity and the resultant work of 
cultural heritage. 
In 1992 the World Heritage Centre was established. Its function 
is to enhance the effective implementation and promotion of the 
“World Heritage Convention 1972”. Therefore it serves as a 
management and coordination platform with the tasks to 
support the World Heritage governing bodies, whose task is to