Search by property

From CSDMS

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.

Search by property

A list of all pages that have property "Describe length scale and resolution" with value "This works for channels of hundreds of meters with 1 m cells". Since there have been only a few results, also nearby values are displayed.

Showing below up to 11 results starting with #1.

View (previous 20 | next 20) (20 | 50 | 100 | 250 | 500)

    

List of results

  • Model:Nitrate Network Model  + (The river network is composed of links, defined as a segment of river channel between tributaries, but can be made smaller if desired. Generally each link has a length on the order of a few kilometers.)
  • Model:WAVEWATCH III ^TM  + (Theoretically length scale larger than longest wave length (10km), practically highest resolution sub km. Largest scales should correspond to spatial scales of forcing.)
  • Model:CellularFanDelta  + (There are two primary constraints: # Like There are two primary constraints:</br># Like most topographically-routed cellular river models, incised channels in the model will always be one cell wide. Hence it should not be applied at scales where the cell size is much less than main channel widths.</br># The model does not really simulate low-Froude low-slope rivers such as most large coastal deltas. However processes are similar to many other codes (e.g. DIONISOS) commonly used for large-scale deltas. If primary questions are about large-scale basin filling on O(10 ka) or longer timescales the model should be fine. However when questions relate to details of sub-millenial geomorphic processes or reservoir-scale stratigraphic architecture, some care must be taken in interpreting model results.st be taken in interpreting model results.)
  • Model:Frost Model  + (There is no specific length scale and resolution to the index, as long as temperature conditions remains similar over the scale.)
  • Model:DrEICH algorithm  + (This algorithm attempts to identify channeThis algorithm attempts to identify channel head, which are features present on a metre to sub-metre scale. Therefore, the accuracy of the prediction will decrease as the DEM resolution becomes coarser. 1 to 2m resolution DEMs are suggested as appropriate for use with this tool.ted as appropriate for use with this tool.)
  • Model:Hilltop flow routing  + (This algorithm attempts to measure individual hillslopes, which are can be resolved at a range of spatial scales. It is recommended to use high resolution topographic data (<4 meter resolution) to ensure that a broad range of hillslopes can be sampled.)
  • Model:GISKnickFinder  + (This code currently only works on a single watershed.)
  • Model:SoilInfiltrationGreenAmpt  + (This component has been tested on the reach and watershed scale (<= 100 km^2), but can likely run effectively on even larger scales as needed.)
  • Model:OceanWaves  + (This is a point model and not dependent on length scale or resolution.)
  • Model:BRaKE  + (This model is intended for a CHANNEL REACH of CONSTANT DRAINAGE AREA.)
  • Model:CMFT  + (Transect length about 500 m)
  • 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 systeTypical 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)
Retrieved from "https://csdms.colorado.edu/wiki/Special:SearchByProperty/:Describe-20length-20scale-20and-20resolution/This-20works-20for-20channels-20of-20hundreds-20of-20meters-20with-201-20m-20cells"