International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B5. Istanbul 2004 
  
The final DSM will then be used by the fluid mechanics group 
of our university as input and reference data for the numerical 
models. The results of this step will finally show whether our 
approach of combining digital photogrammetry and fluid 
dynamics for surf zone modelling is useful for practical 
applications. 
7. REFERENCES 
Bethel, J., 1986. The DSRI! Image Correlator. American 
Congress on Surveying and Mapping, American Society of 
Photogrammetry and Remote Sensing. Annual Convention, 
Vol. IV, pp. 44-49. 
Holland, T., Holman, R. A., Lippmann, T. C., Stanley, J., 1997. 
Practical Use of Video Imagery in Nearshore Oceanographic 
Field Studies. IEEE Journal of Oceanic Engineering, 22(1), 
pp. 81-92. 
Horn, B., 1986. Robot Vision. The MIT Press, Cambridge, 
Massachusetts. 
Linder, W., 2003. Digital Photogrammetry — Theory and 
Applications. Springer-Verlag Berlin Heidelberg New York. 
Pollefeys, M., Koch, R., Vergauwen, M., Van Gool, L., 2000. 
Automated reconstruction of 3D scenes from sequences of 
images. ISPRS Journal of Photogrammetry & Remote Sensing, 
(55)4, pp. 251-267. 
Redweik, G., 1993. Untersuchungen zur Eignung der digitalen 
Bildzuordnung für die Ableitung von Seegangsparametern. 
Wissenschafiliche Arbeiten der Fachrichtung 
Vermessungswesen der Universität Hannover, Nr. 194. 
Santel, F., Heipke, C., Kónnecke, S., Wegmann, H., 2002. 
Image Sequence Matching for the Determination of three- 
dimensional Wave Surfaces. International Archives of 
Photogrammetry, Remote Sensing and Spatial Information 
Sciences, Vol. XXXIV, Part 5, pp. 596-600. 
Strybny, J., Wegmann, H., Santel, F., 2001. Combining Phase- 
Resolving Wave Models with Photogrammetric Measurement 
Techniques. In: Ocean Wave Measurement and Analysis, 
American Society of Civil Engineering, Vol. 1, pp. 191-200. 
Strybny, J, Zielke, W., 2000. Extended Eddy Viscosity 
Concept for Wave Breaking in Boussinesq Type Models, 
Proceedings of the 27" International Conference on Coastal 
Engineering (ICCE). American Society of Civil Engineers, 
Vol. 2, pp 1307-1320. > 
Taguchi, T., Tsuru, K., 1998. Analysis of Flood by 
Stereomatching Method. International Archives of 
Photogrammetry and Remote Sensing, Vol. XXXII, Part 5, 
pp. 810-813. 
Yamazaki, F., Hatamoto, M., Kondo, M., 1998. Utilization of 
Synchronous Shutter Apparatus in the Photographic 
Measurement Method of Flood Flow Surfaces. International 
Archives of Photogrammetry and Remote Sensing, Vol. XXXII, 
Part 5, pp. 848-855. 
8. ACKNOWLEDGEMENTS 
The presented work is part of the project WaveScan. WaveScan 
is a collaboration between the Institute of Photogrammetry and 
Geolnformation (IPI) and the Institute of Fluid Mechanics and 
Computer Applications in Civil Engineering (ISEB), both 
University of Hannover. The authors are grateful to the Federal 
Ministry of Education and Research (BMBF) and the German 
Coastal Engineering Research Council (KFKI) for funding 
under the project contract no. 03KIS026, and also for the advice 
and support received from the Lower Saxony Water 
Management and Coastal Defence Agency (NLWK) Norden 
and from the Coastal Research Center (FSK) Norderney of the 
Lower Saxony State Office for Ecology (NLO). 
     
  
   
    
  
   
   
     
   
   
   
  
   
   
   
   
   
  
  
  
  
  
    
   
   
  
      
    
   
   
   
  
  
   
    
     
    
  
    
  
    
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