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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.

List of results

• Model:Coastal Landscape Transect Model (CoLT)  + (Transect model with landscape of ~10 km (5 km bay, 1 km marsh, and 4 km forest in base version), 1 m grid scale horizontally.)
• Model:CSt ASMITA  + (Typical applications involve coastal syste … Typical applications involve coastal systems tens to hundreds of kilometers in extent. Very useful when there are many components in the coastal system. Although the gridded portion of the model usually use delta x and y values on the order of 100s of meters there is a sub-grid scale representation of the shoreline position with resolution of meters.reline position with resolution of meters.)
• Model:Erode  + (Typical grid cell dimensions are 10 to 500 meters.)
• Model:Cliffs  + (Typical resolution for open-ocean propagation: 2-4 arc-min, near the coast: 30-1 arc-sec; for lab experiments: tens to few cm.)
• Model:Non Local Means Filtering  + (Typically applied to high resolution (1 m LiDAR) gridded topographic datasets. Could pheasably be applied to other resolutions where the scale of noise is similar to the resolution of the topographic data.)
• Model:BOM  + (Uniform horisontal resolution, i.e. works best for resolutions < 20km.)
• Model:GRLP  + (Valid so long as the whole modeled region is a gravel-bed river that is transport-limited)
• Model:MARSSIM  + (Variable - targeted towards drainage basin or larger scales. Spatial scale determined by input parameter and run-time specification of array dimentions. Uses rectangular grid cells.)
• Model:Bing  + (Vertical resolution typically centimeters)
• Model:Compact  + (Vertical resolution typically meters)

• Model:BITM  + (Vertically: cm to m, Horizontally: 50 m to 30 km)

• Model:Sedflux  + (Vertically: mm to cm; Horizontally: 10s of m to 1000 of m)
• Model:Drainage Density  + (Very little constraint; runs quickly on large grids.)
• Model:FluidMud  + (Wave-current BL, lengthscale ~1 m nearbed, grid size ~1mm; Tidal BL: lengthscale 10 m, grid size 1cm)
• Model:Equilibrium Calculator  + (We use formulations describing rivers at l … We use formulations describing rivers at large scale. Complex interactions between physical, chemical, biological and ecological processes that play a relevant role in floodplain construction are not accounted for, as their impacts on floodplain mass balance cannot be quantified. Model parameters should thus be interpreted as averages over a few meander bends, and over several years.few meander bends, and over several years.)
• Model:Mrip  + (With Matlab running on my desktop PC I get … With Matlab running on my desktop PC I get out of memory errors when I make the domain much bigger than it is at present (250x250). I am working to expand the model domain. I would also like to increase the resolution. (Isn't this what all modelers want to do?)(Isn't this what all modelers want to do?))
• Model:Chi analysis tools  + (With reasonable parameter values channel networks with individual channel of ~1000 nodes will take a few to 10s of minutes to analyse. The longer the channel network, the longer the analysis.)
• Model:Gvg3Dp  + (With the current version of the code (DNS and no turbulence model) we are restricted to low Reynolds numbers. Up to maximum 10,000.)
• Model:Spbgc  + (With the current version of the code (DNS and no turbulence model) we are restricted to low Reynolds numbers. Up to maximum 10,000.)
• Model:TreeThrow  + (Zero dimensional model simulating a 1/12 ha plot.)
• Model:WILSIM  + (arbitrary)