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A list of all pages that have property "Describe pre-processing software" with value "ArcGIS for calculating Area, Slope and D8 Flow direction". Since there have been only a few results, also nearby values are displayed.

Showing below up to 11 results starting with #1.

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List of results

  • Model:TopoFlow-Snowmelt-Degree-Day  + (Another program must be used to create the input grids. This includes a D8 flow grid derived from a DEM for the region to be modeled. The earlier, IDL version of TopoFlow can be used to create some of these.)
  • Model:TopoFlow-Snowmelt-Energy Balance  + (Another program must be used to create the input grids. This includes a D8 flow grid derived from a DEM for the region to be modeled. The earlier, IDL version of TopoFlow can be used to create some of these.)
  • Model:TopoFlow-Saturated Zone-Darcy Layers  + (Another program must be used to create the input grids. This includes a D8 flow grid derived from a DEM for the region to be modeled. The earlier, IDL version of TopoFlow can be used to create some of these.)
  • Model:TopoFlow-Evaporation-Read File  + (Another program must be used to create the input grids. This includes a D8 flow grid derived from a DEM for the region to be modeled. The earlier, IDL version of TopoFlow can be used to create some of these.)
  • Model:TopoFlow-Evaporation-Energy Balance  + (Another program must be used to create the input grids. This includes a D8 flow grid derived from a DEM for the region to be modeled. The earlier, IDL version of TopoFlow can be used to create some of these.)
  • Model:TopoFlow-Evaporation-Priestley Taylor  + (Another program must be used to create the input grids. This includes a D8 flow grid derived from a DEM for the region to be modeled. The earlier, IDL version of TopoFlow can be used to create some of these.)
  • Model:TopoFlow-Infiltration-Richards 1D  + (Another program must be used to create the input grids. This includes a D8 flow grid derived from a DEM for the region to be modeled. The earlier, IDL version of TopoFlow can be used to create some of these.)
  • Model:TopoFlow  + (Another program must be used to prepare the required input grids. These include a D8 flow grid and a slope grid, extracted from a DEM of the area.)
  • Model:MARM5D  + (ArcGIS or similar)
  • Model:PsHIC  + (ArcGIS to produce the flow direction file and convert the files to ESRI ASCII format.)
  • Model:RHESSys  + (Associated with the RHESSys simulation areAssociated with the RHESSys simulation are a number of interface programs which organize input data into the format required by the RHESSys simulation model. These include a standard GIS-based terrain partitioning program, r.watershed, and other basic GIS routines as part of the GRASS GIS system and two RHESSys specific programs:</br># GRASS2WORLD (derives landscape representation from GIS images)</br># CREATE_FLOWPATHS (establishes connectivity between spatial units)lishes connectivity between spatial units))
  • Model:Gospl  + (Available as jupyter notebooks based on CSAvailable as jupyter notebooks based on CSV and numpy compressed arrays format. The documentation contains some workflows and functions that helps, among others, to pre-process netCDF elevation and climate dataset, plate velocity files and to create</br>an unstructured spherical mesh used as input for gospl.ed spherical mesh used as input for gospl.)
  • Model:Chi analysis tools  + (Channel profile data must be prepared to meed the specifications of the *.chan file. The format of this file is described in the documentation provided with the source code.)
  • Model:SRH-1D  + (Excel)
  • Model:LTRANS  + (External Dependencies and Programs. LTRANSExternal Dependencies and Programs. LTRANS requires NetCDF libraries and uses the following programs to calculate random numbers (Mersenne Twister) and fit tension splines (TSPACK). Because LTRANS reads-in ROMS-generated NetCDF (.nc) files, it requires that the appropriate NetCDF libraries be installed on your computer (see files and links below). Also, please note that although the Mersenne Twister and TSPACK programs are included in the LTRANS in the Random_module.f90 and Tension_module.f90, respectively, they do not share the same license file as LTRANS. See also: http://northweb.hpl.umces.edu/LTRANS.htm: http://northweb.hpl.umces.edu/LTRANS.htm)
  • Model:GIPL  + (For spatial case one can developed its own pre-processing in order to put the input dataset in the format readable for GIPL.)
  • Model:GLUDM  + (GIS)
  • Model:CLUMondo  + (GIS software)
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