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This page provides a simple browsing interface for finding entities described by a property and a named value. Other available search interfaces include the page property search, and the ask query builder.

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Model:SNAC + (In XML format, the following groups of par … In XML format, the following groups of parameters are specified:simulation control group: total model time, time step, damping, etc.plugins: elasticity, viscoelasticity, temperature solver, etc.domain description group: domain size, element numbers, etc.initial and boundary conditions groupetc. initial and boundary conditions group)
Model:CoastMorpho2D + (Initial bathymetry Boundary conditions Time series of waves, wind, storm surges Various hydrodynamics and sedimentary parameters)
Model:SBEACH + (Initial beach profiles, time series of storm wave heights, periods, and storm water levels)
Model:CMFT + (Initial bottom configuration, wind and tide characteristics, sea level rise rate, water column sediment concentration at the boundary.)
Model:Shoreline + (Initial coastline curve (array of xy pairs), depth of closure, a time series of wind speeds and angles, sediment grainsize, coastal bluff heights, a variety of configuration flags)
Model:MarshMorpho2D + (Initial elevation (z) grid with cell type (A))
Model:MARSSIM + (Initial elevation file. File specifying boundary conditions, run time, process options, and parameter values.)
Model:Erode + (Initial land surface (several built-in opt … Initial land surface (several built-in options), number of timesteps, DEM grid dimensions, DEM grid cell dimensions, R = "geomorphic" rainrate (m/yr), U=uplift rate (mm/yr), BLR = base-level lowering rate (mm/yr), Kf="erodibility coefficient (m^3/yr)^(1-m), m = area/discharge exponent, n = slope exponent, p = area-discharge exponent, toggles for different types of boundary conditions (e.g. periodic), DEM georeferencing info (bounding box, pixel geometry, etc.) info (bounding box, pixel geometry, etc.))
Model:GPM + (Initial topography. Initial subsurface la … Initial topography.Initial subsurface layering, if any.Properties of existing rocks/sediments.Sea-level change curve.Sources of flow and sediment, sources of wave action, boundary conditions Externally imposed vertical tectonics as a function of horizontal position and timea function of horizontal position and time)
Model:HBV + (Input data are observations of precipitation, air temperature and estimates of potential evapotranspiration.)

Model:AlluvStrat + (Input file: channel width and depth, a few others)

Model:ESCAPE + (Input files for eSCAPE are based on YAML s … Input files for eSCAPE are based on YAML syntax. domain: definition of the unstructured grid containing the vtk grid filename and the associated field (here called Z) as well as the flow direction method to be used flowdir that takes an integer value between 1 (for SFD) and 12 (for Dinf) and the boundary conditions (bc: ‘flat’, ‘fixed’ or ‘slope’)time: the simulation time parameters defined by start, end, tout (the output interval) and dt (the internal time-step).Follows the optional forcing conditions:sea: the sea-level declaration with the relative sea-level position (m) and the sea-level curve which is a file containing 2 columns (time and sea-level position).climatic & tectonic have the same structure with a sequence of events defined by a starting time (start) and either a constant value (uniform) or a map.Then the parameters for the surface processes to simulate:spl: for the stream power law with a unique parameter Ke representing the The erodibility coefficient which is scale-dependent and its value depend on lithology and mean precipitation rate, channel width, flood frequency, channel hydraulics. It is worth noting that the coefficient m and n are fixed in this version and take the value 0.5 & 1 respectively.diffusion: hillslope, stream and marine diffusion coefficients. hillslopeK sets the simple creep transport law which states that transport rate depends linearly on topographic gradient. River transported sediment trapped in inland depressions or internally draining basins are diffused using the coefficient (streamK). The marine sediment are transported based on a diffusion coefficient oceanK. The parameter maxIT specifies the maximum number of steps used for diffusing sediment during any given time interval dt.Finally, you will need to specify the output folder:output: with dir the directory name and the option makedir that gives the possible to delete any existing output folder with the same name (if set to False) or to create a new folder with the give dir name plus a number at the end (e.g. outputDir_1 if set to True)umber at the end (e.g. outputDir_1 if set to True))
Model:LTRANS + (Input files: # the NetCDF files from the R … Input files:# the NetCDF files from the ROMS hydrodynamic model# a comma delimited file that contains the particle locations, # comma delimited files that contain habitat boundaries for the Settlement Module. The latter is only needed if the Settlement Module is turned on.ded if the Settlement Module is turned on.)
Model:IDA + (Input flow directions: 8 bit unsigned in … Input flow directions: 8 bit unsigned integers The numbers corresponding to each of the 9 possible flow directions are shown below: 32 64 128 16 0 1 8 4 2 So a cell with the value '1' means that the flow in that cell goes to the East, while a value of '32' means that the cell's flow goes to the North West. The value '0' implies that the cell is a sink and flow does not leave it Row major order is used.not leave it Row major order is used.)
Model:QDSSM + (Input is in the form of values per time st … Input is in the form of values per time step for the following variables: files of rain fall, river inlet, sea-level, substratum thickness, tectonics, subsidence, while the model is calibrated through environmental coefficients, threshold slopes, threshold discharge, and set for interval time steps, number of time steps, environmental coefficients (m2/yr) and substratum grain size.icients (m2/yr) and substratum grain size.)
Model:CVPM + (Input parameters are provided through several user-supplied files (see the CVPM modeling system user's guide).)
Model:DHSVM + (Input parameters are: * Digital Elevation … Input parameters are:* Digital Elevation Model (DEM) of the basin* Soil textural and hydraulic information* Vegetation information* Meteorological conditions at a subdaily timestep, in particular precipitation, air temperature, humidity, wind speed, incoming shortwave radiation and incoming longwave radiation* Information about the stream and road network (location, width, etc.)m and road network (location, width, etc.))
Model:Meander Centerline Migration Model + (Input parameters belong to five families: … Input parameters belong to five families:* parameters related to flow field* parameters related to the floodplain structure* parameters related to the river geometry* parameters related to the time marching of the simulation* parameters related to the output printing parameters related to the output printing)
Model:Spbgc + (Input parameters: * Geometrical parameters: Nx, Ny, domain size * Flow Parameters: Reynolds, Peclet * Particle Parameters: Settling velocities. The complete list of input parameters is set and described in the file input.inp)
Model:WASH123D + (Input parameters: # Geomety in terms of f … Input parameters:# Geomety in terms of finite element mesh# matreial properties,# initila conditions,# boundary conditions,# meteogoligcal data, and# reaction networks for biogeochemical transport. Detailed input/output refers to Yeh et al., 2005 Technical Report on WASH123D et al., 2005 Technical Report on WASH123D)
Model:CREST + (Input parameters: * DEM * Precipitation * Potential Evapotranspiration)