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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B6. Istanbul 2004 
  
4. CONCLUSION AND OUTLOOK 
The complex infrastructure for the Virtual Landscape is partly 
implemented. However, for some components we still lack of 
experiences. This deficiency has to be eliminated. 
Within the next steps the transformation from GML into X3D 
has to be carried out. Further the question of how 3D- 
coordinates via a WFS may be delivered has to be answered. 
In terms of providing some basic functionalities for analyzing 
the geodata it will be challenging to find out whether such 
functions should be implemented at the level of the database 
(e.g. using the functionalities of Oracle Spatial) or at the level 
of the GML-data. For the latter the potentials of SAX- and 
DOM- processing within the GML-data must be made clear. 
Finally these technical components must be composed to a 
learning environment taking in mind didactic issues. This 
means that examples have to be provided to illustrate content. 
Further on meaningful tasks for working and experimenting 
with the Virtual Landscape have to be assigned to guide 
students in their learning process. Help and feedback 
functionalities are essential and therefore must be provided. 
After all the application has to be tested and evaluated in a 
blended learning-scenario. 
S. REFERENCES 
Altmaier, A. & T.H. Kolbe (2003): Applications and Solutions 
for Interoperable 3d Geo-Visualization. In: Fritsch, D. (ed.): 
Proceedings of the Photogrammetric Weck 2003 in Stuttgart, 
Wichmann Verlag. 
Bode, T., Devooght, 1., Kolbe, T.H., Steinriicken, J. & M. Won 
(2004): GeoCafé — Kommunikationszentriertes Gruppenlernen 
von Methoden der raumbezogenen Datenverarbeitung. In: 
Plümer, L. & H. Asche (2004): Geoinformation — Neue Medien 
für eine neue Disziplin. 
Buchholz, G.A. Commandments of 
Internet Writing. 
http://www.contentology.com/weblog/weblog 06-2003.html 
(2005). "The 10 
Burke, E. M. (2001): Java and XSLT. O' Reilly, Sebastopol. 
Dorninger, P. (2003): XML Technologies and Geodata. In: 
CORP-Tagungsband, 2003. 
Fitzke, J. & K. Greve (2002): Umweltkarten im Internet: Das 
Potential von  WebMap-Services. In:  Kartographische 
Nachrichten, 6. 
Katterfeld, C. & M. Sester (2003): Virtuelle Landschaften fiir 
E-Learning-Umgebungen. Contribution to the “web.mapping 
au 
— Sysmposium 2003", Potsdam. 
Krone, O. (2003): Webfähige interaktive 3D-Visualisierung 
von Proteinstrukturen. Diploma Thesis at the University of 
Osnabrück. 
lehre.inf.uos.de/-okrone/DIP/Diplomarbeit.html) 
Lehto, L. (2001): Multi-purpose Publishing of Geodata in the 
Web. In: Papers of the Nordic GIS Conference, Helsinki. 
(http://www.ginorden.org/konf/getpaper.php?ID-67) 
(http://www. 
159 
Lorup J.E. & S. Bleisch (2003): Schweizweite GIS- 
Ausbildung mit GITTA - Aufbau und Organisation. In: E- 
Learning in Geoinformatik und Fernerkundung. Wichmann, 
Heidelberg. 
May, M., Schmidt, B., Streit, U. & C. Uhlenküken (2003): 
Web-Service-basierte 3D-Visualisierung im | Umfeld der 
Raumplanung. In: CORP-Tagungsband, 2003. 
Nielsen, 4... (1997); How to 
http://www.useit.com/papers/ 
write for the Web. 
Nielsen, J. (1999): Differences Between Print Design and Web 
Design. http://www.useit.com/alertbox/990124.html. 
Metternicht, G. (2003): Expanding Distance Education In The 
Spatial Sciences. In: Proceedings of the 21th International 
Cartographic Conference (ICC), Durban. 
Müller, M. (2004): gimolus — GIS-und modellgestiitze 
Lernmodule fiir umweltwissenschaftliche Studiengänge. In: 
Plümer, L. & H. Asche (2004): Geoinformation — Neue Medien 
für eine neue Disziplin. 
OGC (1999): OpenGIS Simple Features Specification For SQL, 
Revision |. Document-Number 99-049. 
http://www.opengis.org/docs/99-049.pdf 
OGC (2001): Filter Encoding Implementaiton Specification. 
Version 1.0.0. Document-Number 02-059. 
http://www.opengis.org/docs/02-059.pdf 
OGC (2002a): OpenGIS® Geography Markup Language 
(GML) Implementation Specification, version 2.1.2. Document- 
Number: 02-069. http://www.opengis.org/docs/02-069.pdf 
OGC (2002b): Web Feature Service Implementation 
Specification, version 1.0.0. Document-Number 02-058. 
http://www.opengis.org/docs/02-058.pdf 
Petschek, P. & E. Lange (2004): Planung des óffentlichen 
Raumes - der Einsatz von neuen Medien und 3D 
Visualisierungen. In: In: CORP-Tagungsband, 2004. 
Riedl, A. & A. Schelten (2002): Handlungsorientiertes Lernen. 
http://www.paed.ws.tum.de/downloads/hu-rie-sche.pdf 
Saurer, H., Fuerst, R. & H. Großmann (2004): WEBGEO — 
Geographie online lernen ! In: Plümer, L. & H. Asche (2004): 
Geoinformation — Neue Medien für eine neue Disziplin. 
Schicwe,” 4, Ehlers, "M. "& "B." Grenduns (2004): 
Fernstudienmaterialien Geoinformatik (FerGI) — Konzeption 
und erste Implementierungsschritte. In: Plümer, L. & H. Asche 
(2004): Geoinformation — Neue Medien für eine neue Disziplin. 
Schmidt, B., May, M. & C. Uhlenküken (2003): Dienste- 
basierte Architekturen für die Web-basierte — 3D- 
Geovisualisierung. Münsteraner Gl-Tage, 26.-27.06.2003 
(http://www.conterra.de/service/presse/archiv/) 
Simonis, I. & S. Merten (2004): Die Geodateninfrastruktur des 
Webportals geoinformation.net. In: Plümer, L. & H. Asche 
(2004): Geoinformation — Neue Medien für eine neue Disziplin. 
Weippert, H. & D. Fritsch (2002): Development of a GIS- 
Supported Interactive ,,Remote Sensing" Learning Module. In: 
Zeitschrift für  Photogrammetrie und Fernerkundung — 
Supplement, 9.