5440000 5442000 5444000 5446000 
| | | | 
| 1 
5874000 —— —— 5874000 Sensc 
Loca 
data 
5872000 ——+ —— 5872000 
Sens: 
Loce 
data 
5870000 ——+ — 5870000 
Fi 
mer 
5868000 ++ —- 5868000 incl 
l. 
5866000 ——+ i + —+— 5866000 
Georeferenzierte Darstellung 
des Hochwassergebietes der Oder 2 
Abschnitt Hohensaaten - Stützkow 
DPA Kanal B (panchromatisch) 
5864000 —— + —i— 5864000 3 
Maßstab The 
Kilometer sen 
1: 50000 ma 
; reg 
/ | em 
5440000 5442000 5444000 5446000 BAM e Ew wh 
Inte 
rel o 
POTSOAN en 
Fig. 6: Th 
2L ; act 
Consequently the main goal of a future flood risk information and e improvement of hydrodynamic flood modelling for flood GI: 
management system has to be an improvement of the efficiency of simulation and prediction, assessment of outlet regulation nat 
flood information management for future operational hazard capability of catchment areas, selection of retention areas etc., tioi 
preventive measures across borders, early warning, damage regu- : i pe. 
lation (relief operations, evaluation of insurance covered risks,  *  SUPPOTt to international activities of hazard risk management Th 
damage assessment) and environmental protection by using satel- especially for the introduction of a practicable pan-European etc 
lite based technology. This includes: flood risk information management technology. the 
for 
e availability of (image) data for the total catchment area in near 
real-time for flood control and alleviation activities, 
A future operational flood risk information and management 
system (FRIMS) is conceived as a multi-stage system. It combines 
the innovative technology of Remote Sensing, GIS data manage 
188 Intemational Archives of Photogrammetry and Remote Sensing. Vol. XXXII, Part 7, Budapest, 1998