User:Rcorrigan: Difference between revisions

From XMS Wiki
Jump to navigationJump to search
(Replaced content with "*Workflow Tests *Update Pages *Functional Surface Options *...")
Tag: Replaced
Line 5: Line 5:
*[[User:Rcorrigan/Sandboxing GMS Menus|GMS Sandbox]]
*[[User:Rcorrigan/Sandboxing GMS Menus|GMS Sandbox]]
[[Category:User:Rcorrigan/Templates]]
[[Category:User:Rcorrigan/Templates]]
==Model Control Editing==
===Parameters===
*''Source terms'' – (This option defines whether CMS-Wave should generate waves using wind input or not.???)
'''**"Source terms and propagation" –  Uses wind input if provided.'''
'''**"Propagation only" – Neglects wind input in calculation.'''
''' *''Current interaction'' – Option to define currents for the simulation.
**"None" – No current interaction will be in the simulation.
**"Use dataset" – A vector dataset can be used to define the currents for the simulation. Click '''Select''' to select from the dataset options in a dialog. '''
**"Gauss-Seidel" – Sets matrix solver to Gauss-Seidel solver with multi-processor capability.
***''Number of threads'' –
**"ADI" – Sets matrix solver to Alternative Direction Iterative solver.
====Source Material====
* ''Source Terms'' –  Specifies whether STWAVE should generate waves using wind and the input spectrum or whether to use the wave spectrum.
===Boundary Control===
The Boundary control tab contains options for assigning spectral data for the model run.
*''Source'' – Select the source for the external boundary conditions
**"Spectral Coverage" – Uses the spectral coverage in the simulation for all boundary conditions.
**"None" – Requires that energy spectra be entered.
*''Interpolation Type'' – Sets the method for (CMS-Wave??) to use when interpolating between spectra.
***"Average spectra" –
***"IDW interpolation" &ndash; Sets the type of data interpolation to Inverse Distance Weighting <!--(for example, for spatial interpolation of wind data) Riley has no idea if this is actually the case-->
*''Computational Spectral Grid'' &ndash; Adjust and view data related to the computational spectral grid.
**''Frequency Distribution'' &ndash; Adjust the Frequency Distribution settings for the computational spectral grid.
***''Number'' &ndash; Adjust the number of frequency bands.
***''Delta'' &ndash; Adjust the step size in Hz.
***''Minimum'' &ndash; Adjust the minimum frequency in Hz.
**''Angle Distribution'' &ndash; View the Angle Distribution settings for the computational spectral grid.
***''Number'' &ndash; View the number of angle bands.
***''Delta'' &ndash; View the  step size in degrees.
***''Minimum'' &ndash; View the minimum angle in degrees.
*''Sides'' &ndash; Specified when using a spectral coverage source. The types of boundary conditions include:
** "Specified spectrum" &ndash; Click '''Select''' to the right to open a dialog box to assign the spectral coverage to the boundary.
** "Zero spectrum" &ndash; The boundary doesn't have any spectral energy applied.
** "Open lateral boundary" &ndash;
*''Case data'' &ndash; Defines the time step or cases that will be used and the input boundary conditions for each.
**''Wind direction angle convention'' &ndash; Set the convention for the wind direction field for the model.
***"Cartesian" &ndash; The direction FROM. The origin (0.0) indicates the direction is coming from North. It increases clockwise from North (viewed from above). This is most commonly used for wind direction.
***"Meterologic" &ndash; The direction TO. The origin (0.0) indicates the direction is going to the North. It increases clockwise (like a bearing) so 45 degrees indicates a direction heading towards the North East.
***"Oceanographic" &ndash; The Cartesian coordinate axes as a direction TO.  East, or the positive X axis, defines the zero direction. It increases in a counter clockwise direction or righthand rule. 45 degrees indicates a direction heading to the North East and 90 degrees indicates a direction heading to the North.
***"Shore normal" &ndash; "TO" convention based on a Theta(grid) which defines the grid orientation relative to the positive X axis (CCW direction).
**''Populate from Spectra'' &ndash; Click the '''Populate''' button to import data from the (Spectral coverage???).
**'''Set Reference Time''' &ndash; Click this button to open the ''CMS-Wave Simulation Reference Time'' dialog and adjust the reference time and time units.
***''Reference time'' &ndash; Set the desired Reference time for the simulation.
***''Time units'' &ndash; Sets time units for case data to "days", "hours", or "minutes".
**'''Graphic icons???'''
**''Time'' &ndash; The time offset value  representing how much later the time is than the specified reference time. Hence, if 5 is entered for the time offset, and the time units is hours, then it is the case of 5 hours later. When nesting is used, the case ids, and the number of cases, will be determined by the parent simulation.
**''Wind Direction'' &ndash; Available if "Constant value" has been selected on the ''Parameters" tab.
**''Wind Magnitude'' &ndash; Available if "Constant value" has been selected on the ''Parameters" tab.
**''Water Level'' &ndash; Available if "Constant value" has been selected on the ''Parameters" tab.
====Source Material====
*''Cartesian'': The direction FROM. The origin (0.0) indicates the direction is coming from North. It increases clockwise from North (viewed from above). This is most commonly used for wind direction.
*''Meteorologic'': The direction TO. The origin (0.0) indicates the direction is going to the North. It increases clockwise (like a bearing) so 45 degrees indicates a direction heading towards the North East.
*''Oceanographic'': The Cartesian coordinate axes as a direction TO.  East, or the positive X axis, defines the zero direction. It increases in a counter clockwise direction or righthand rule. 45 degrees indicates a direction heading to the North East and 90 degrees indicates a direction heading to the North.
*''Shore Normal'':      "TO" convention based on a Theta(grid) which defines the grid orientation relative to the positive X axis (CCW direction).
*''Sides'' &ndash; Specified when using a spectral coverage source. The types of boundary conditions include:
** "Specified spectrum" &ndash; This may come from a parent grid if using nesting. Otherwise, a button to the right will be used to assign the spectral coverage to the boundary.
** "1D transformed spectrum" &ndash; This boundary type allows energy to propagate along the boundary without interference. The cells would have the same energy if the grid was extended and the boundary became interior to a larger grid.
** "Zero spectrum" &ndash; The boundary doesn't have any spectral energy applied.
*''Case data'' &ndash; Defines the time step or cases that will be used and the input boundary conditions for each.
**''Wind direction angle convention'' &ndash;  Controls allow choosing the convention that will be used for the wind direction field in the events spreadsheet. Options include: "Cartesian", "Meteorologic", "Oceanographic", and "Shore normal".
**''Time'' &ndash; The time offset value  representing how much later the time is than the specified reference time. Hence, if 5 is entered for the time offset, and the time units is hours, then it is the case of 5 hours later. When nesting is used, the case ids, and the number of cases, will be determined by the parent simulation.
**''Wind Direction'' &ndash; Available if "Constant value" has been selected on the ''Parameters" tab.
**''Wind Magnitude'' &ndash; Available if "Constant value" has been selected on the ''Parameters" tab.
**''Water Level'' &ndash; Available if "Constant value" has been selected on the ''Parameters" tab.
Breaking – This will output a dataset representing the wave breaking. For full-plane, this can be no indices (off) or write indices which gives a value of 1 where breaking occurs and 0.0 otherwise. Half-plane has the full-plane options and has an additional option to calculate energy dissipation; this will give a dataset of energy dissipation.
*''Wind'' &ndash; a constant value or a vector dataset can be used to define the wind for the simulation. If constant is selected, the wind direction and magnitude will be specified in the ''CMS-Wave Case Definition'' dialog for each case.
===Output control===
The Output Control tab contains additional options for outputting results from the CMSWave model run.
*''Limit observation output'' &ndash;
*''Radiation Stresses'' &ndash; Turns on wave radiation stresses calculations for the simulation. (Results in a [[SMS:CMS-Wave Radiation Stress File|wave radiation stress file]] with spatially varied data (a value for each cell)???).
*''Breaking type'' &ndash; Option to turn on (production of wave breaking data???) (wave breaking file creation???) and define data type (results in a [[SMS:CMS-Wave Wave Breaking File|wave breaking file]] with spatially varied data (a value for each cell)).
**"None" &ndash; (Wave breaking file type will not be produced???).
**"Write indices" &ndash; (Select for output of wave breaking indices???)
**"Calculate energy dissipation" &ndash; (Select for output of dataset of energy dissipation fluxes???)
===Options===
*''Allow wetting and drying'' &ndash; Allows fluctuation of cells between wet and dry depending on threshold flow depth at the cell center.
*''Infragravity wave effect'' &ndash; Sets the model to include infra-gravity wave effect.
*''Diffraction intensity'' &ndash; Sets the diffraction intensity for the model. Use 0 for no diffraction. Use 4 for strong diffraction.
*''Nonlinear wave effect'' &ndash; Sets the model to include computation for non-linear wave-wave interaction.
*''Run up'' &ndash; Sets the model to include computation for wave runup, which is the maximum shoreward wave swash on the beach face for engineering structures.
*''Fast-mode run'' &ndash; (??for fast-mode simulation (for wave generation and propagation))
*''Roller effects'' &ndash; (Sets wave roller intensity factor. Use "None" for no effect. Use "100%" for strong effect.???)
*''Forward reflection'' &ndash; A constant value for the entire simulation or spatially varying data using a scalar dataset can be used to define the forward reflection for the model.
**"None" &ndash; Forward reflection will not be represented in the model.
**"Constant" &ndash; Forward reflection will be defined by a constant value for the entire simulation.
**"Use dataset" &ndash; Forward reflection will be defined by a scalar dataset with spatially varying data for the simulation. '''Select''' appears next to it. This button brings up a data tee that allows for selecting the desired dataset.
*''Backward reflection'' &ndash; A constant value for the entire simulation or spatially varying data using a scalar dataset can be used to define the backward reflection for the model.
**"None" &ndash; Backward reflection will not be represented in the model.
**"Constant" &ndash; Backward reflection will be defined by a constant value for the entire simulation.
**"Use dataset" &ndash; Backward reflection will be defined by a scalar dataset with spatially varying data for the simulation.  '''Select''' appears next to it. This button brings up a data tee that allows for selecting the desired dataset.
*''Muddy bed'' &ndash; If desired, spatially varying data using a scalar dataset can be used to calculate wave dissipation over muddy bed for the model.
**"None" &ndash; Turns off calculating for wave dissipation over muddy bed.
**"Use dataset" &ndash; Define the scalar dataset to be used to calculate wave dissipation over muddy bed for the model. '''Select''' appears next to it. This button brings up a data tee that allows for selecting the desired dataset.
*''Wave breaking formula'' &ndash; Sets the formula for (depth-limited energy dissipation??) for the simulation.
**"Extended Goda" &ndash; Sets wave breaking formula to "Extended Goda".
**"Extended Miche" &ndash; Sets wave breaking formula to "Extended Miche".
**"Battjes and Jannsen 1978" &ndash; Sets wave breaking formula to "Battjes and Jannsen 1978". For this formula, Gamma value definition <!--possibly Spectral peak dispersion factor--> is required.
**"Chawla and Kirby" &ndash; Sets wave breaking formula to "Chawla and Kirby".
**"Battjes and Jannsen 2007" &ndash; Sets wave breaking formula to "Battjes and Jannsen 2007".
**"Miche Original" &ndash; Sets wave breaking formula to "Miche Original".
**"Lifting breaking" &ndash; Sets wave breaking formula to "Lifting breaking".
*''Date format'' &ndash; Select the type of date format preferred for (output data???).
***"8 digits" &ndash; Sets date format to 8 digit format.
***"12 digits" &ndash; Sets date format to 12 digit format.
==Creating Blurbs for Pages==
This page describes tools in the SMS toolbox that are grouped under the [[SMS:ADCIRC|ADCIRC]] model.
This article describes tools in the [[SMS:toolbox|SMS toolbox]] that are used with the [[SMS:ADCIRC|ADCIRC]] model to assist with specific ADCIRC functions.
This article describes tools from the [[SMS:toolbox|SMS toolbox]] designed to perform specialized modifications to [[SMS:Coverages|coverages]].
This article describes tools from the [[SMS:toolbox|SMS toolbox]] that perform a wide variety of functions. Many of them are related to creating, converting, and representing [[SMS:Datasets|datasets]] in SMS. Many of these functions were formerly found under the [[SMS:Dataset Toolbox|''Dataset Toolbox'']].
This article describes tools from the [[SMS:toolbox|SMS toolbox]] that are used to modify and organize [[Lidar|lidar]] data in SMS.
This article describes tools from the [[SMS:toolbox|SMS toolbox]] that are used to edit, create, and otherwise modify rasters. <!--[[SMS:Rasters|rasters]] This page doesn't exist-->
This article describes tools from the [[SMS:toolbox|SMS toolbox]] that are used to edit, create, and otherwise modify [[SMS:UGrid Module|Ugrids]].
==Tool pages to create==
[[Extrude to 3D UGrid Tool|Extrude to 3D UGrid]]
[[Raster to Grid Tool|Raster to Grid]]
==Tools Links==
[[SMS:ADCIRC Check/Fix Levee Crest Elevations Tool|''Check/Fix Levee Crest Elevations'']]
[[SMS:ADCIRC Check/Fix Levee Ground Elevations Tool|''Check/Fix Levee Ground Elevations'']]
[[Arcs to Polygons Tool|Arcs to Polygons]]
[[Trim Coverage Tool|Trim Coverage]]
[[Advective Courant Number Tool|Advective Courant Number]]
[[Advective Time Step Tool|Advective Time Step]]
[[Angle Convention Tool|Angle Convention]]
[[Canopy Coefficient Tool|Canopy Coefficient]]
[[Chezy Friction Tool|Chezy Friction]]
[[Compare Datasets Tool|Compare Datasets]]
[[Directional Roughness Tool|Directional Roughness]]
[[Filter Dataset Values Tool|Filter Dataset Values]]
[[Geometry Gradient Tool|Geometry Gradient]]
[[Gravity Waves Courant Number Tool|Gravity Waves Courant Number]]
[[Gravity Waves Time Step Tool|Gravity Waves Time Step]]
[[Landuse Raster to Mannings N Tool|Landuse Raster to Mannings N]]
[[Map Activity Tool|Map Activity]]
[[Merge Datasets Tool|Merge Datasets]]
[[Point Spacing Tool|Point Spacing]]
[[Primitive Weighting Tool|Primitive Weighting]]
[[Quadratic Friction Tool|Quadratic Friction]]
[[Scalar to Vector Tool|Scalar to Vector]]
[[Smooth Datasets Tool|Smooth Datasets]]
[[Smooth Datasets by Neighbor Tool|Smooth Datasets by Neighbor]]
[[Time Derivative Tool|Time Derivative]]
[[Vector to Scalar Tool|Vector to Scalar]]
[[LAS to LAS Tool|LAS to LAS]]
[[LAS to Text Tool|LAS To Text]]
[[LASIndex Tool|LASIndex]]
[[LASInfo Tool|LASInfo]]
[[LASMerge Tool|LASMerge]]
[[LASZip Tool|LASZip]]
[[Text to LAS Tool|Text to LAS]]
[[Blend Raster to Edges Tool|Blend Raster to Edges]]
[[Bounds to Polygon Tool|Bounds to Polygon]]
[[Clip Raster from Elevation Tool|Clip Raster from Elevation]]
[[Edit Elevations Tool|Edit Elevations]]
[[Extend Raster Tool|Extend Raster]]
[[Fill Nodata Tool|Fill Nodata]]
[[Interpolate Priority Rasters Tool|Interpolate Priority Rasters]]
[[Merge Elevation Rasters Tool|Merge Elevation Rasters]]
[[Nodata to Polygon Tool|Nodata to Polygon]]
[[Raster Difference Tool|Raster Difference]]
[[Trim Raster Tool|Trim Raster]]
[[Dataset to Raster Tool|Dataset to Raster]]
[[Convert to Voronoi UGrid Tool|Convert to Voronoi UGrid]]
[[Convert 3D Data to 2D Data Tool|Convert 3D Data to 2D Data]]
[[Create Bridge Footprint Tool|Create Bridge Footprint]]
[[Import UGrid Points Tool|Import UGrid Points]]
[[Interpolate to UGrid Tool|Interpolate to UGrid]]
[[Merge UGrids Tool|Merge UGrids]]
[[Smooth UGrid Tool|Smooth UGrid]]

Revision as of 21:24, 14 March 2022