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start:hype_tutorials:hype_setup_tutorial [2019/08/23 14:24] rcapell |
start:hype_tutorials:hype_setup_tutorial [2020/04/08 09:32] rcapell [Input data, GeoData.txt] |
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|//Figure 9: An example of GeoData.txt file structure.//| | |//Figure 9: An example of GeoData.txt file structure.//| | ||
- | It is necessary that the subbasins are ordered in a downstream sequence. [[https://github.com/rcapell/RHYPE/|RHYPE]] includes a function //SortGeoData()// for this purpose. | + | It is necessary that the subbasins are ordered in a downstream sequence. [[https://github.com/rcapell/HYPEtools/|HYPEtools]] includes a function //SortGeoData()// for this purpose. |
- | When GeoData.txt has been constructed it is always a good idea to check the tailoring of the data. Join the geodata.txt to the subbasin shapefile and produce some maps for spatial check, i.e. ELEV_MEAN, summerized LandUse and Soilclasses. A function //GroupSLCClasses()// from RHYPE can be helpful. To check the routing you can map each sub-basin's catchment area (from WHIST: AREA+UPAREA, from RHYPE: //SumUpstreamArea()//) and get a view of the network. | + | When GeoData.txt has been constructed it is always a good idea to check the tailoring of the data. Join the geodata.txt to the subbasin shapefile and produce some maps for spatial check, i.e. ELEV_MEAN, summerized LandUse and Soilclasses. A function //GroupSLCClasses()// from HYPEtools can be helpful. To check the routing you can map each sub-basin's catchment area (from WHIST: AREA+UPAREA, from HYPEtools: //SumUpstreamArea()//) and get a view of the network. |
==== Input data, P(obs), T(obs), ForcKey ==== | ==== Input data, P(obs), T(obs), ForcKey ==== |