SMS:Spectral Coverage: Difference between revisions
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Spectral coverages are used to store all spectral data by location and time. These coverages are then used as spectral input for CMS-Wave and STWAVE, and are also used to view spectral output generated by the models in observation and nesting files. | Spectral coverages are used to store all spectral data by location and time. These coverages are then used as spectral input for CMS-Wave and STWAVE, and are also used to view spectral output generated by the models in observation and nesting files. | ||
==Spatial Varied Boundary Conditions== | ==Spatial Varied Boundary Conditions== | ||
CMS-Wave and STWAVE have the ability to read in spectral data from various locations defined in a nesting file. Within SMS, this spectral data is defined using a spectral coverage. Each | CMS-Wave and STWAVE have the ability to read in spectral data from various locations defined in a nesting file. Within SMS, this spectral data is defined using a spectral coverage. Each point in this coverage can be assigned to any number of spectral grids and datasets which define the conditions at that location at any specific time. | ||
==Creating Spectral Data== | ==Creating Spectral Data== | ||
To create spectral data at a point in the spectral coverage, right-click on the point and select '''Node Attributes...'''. This will bring up the ''Spectral Energy'' dialog, from which spectral grids and spectra can be created. See [[SMS:Generate/Edit Spectra|Generate/Edit Spectra]]. | To create spectral data at a point in the spectral coverage, right-click on the point and select '''Node Attributes...'''. This will bring up the ''Spectral Energy'' dialog, from which spectral grids and spectra can be created. See [[SMS:Generate/Edit Spectra|Generate/Edit Spectra]]. | ||
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==Creating a Spectral Event== | ==Creating a Spectral Event== | ||
See the article [[SMS:Spectral_Events|Spectral Events]] | |||
[[File:SpectralEvents.jpg|thumb|none|500 px|''Spectral Event'' dialog]] | [[File:SpectralEvents.jpg|thumb|none|500 px|''Spectral Event'' dialog]] | ||
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[[Category:Spectral Energy|S]] | [[Category:Spectral Energy|S]] | ||
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[[Category:SMS Map| | [[Category:SMS Map|Spectral]] | ||
[[Category:SMS Coverages| | [[Category:SMS Coverages|Spectral]] | ||
[[Category:SMS Map Dialogs]] | [[Category:SMS Map Dialogs|spectral]] | ||
[[Category:SMS Spectral Dialogs]] | [[Category:Spectral Energy|Coverage]] | ||
[[Category:SMS Spectral Dialogs|Coverage]] | |||
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Latest revision as of 21:35, 6 September 2022
Spectral coverages are used to store all spectral data by location and time. These coverages are then used as spectral input for CMS-Wave and STWAVE, and are also used to view spectral output generated by the models in observation and nesting files.
Spatial Varied Boundary Conditions
CMS-Wave and STWAVE have the ability to read in spectral data from various locations defined in a nesting file. Within SMS, this spectral data is defined using a spectral coverage. Each point in this coverage can be assigned to any number of spectral grids and datasets which define the conditions at that location at any specific time.
Creating Spectral Data
To create spectral data at a point in the spectral coverage, right-click on the point and select Node Attributes.... This will bring up the Spectral Energy dialog, from which spectral grids and spectra can be created. See Generate/Edit Spectra.
Related Topics
SMS – Surface-water Modeling System | ||
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Modules: | 1D Grid • Cartesian Grid • Curvilinear Grid • GIS • Map • Mesh • Particle • Quadtree • Raster • Scatter • UGrid | |
General Models: | 3D Structure • FVCOM • Generic • PTM | |
Coastal Models: | ADCIRC • BOUSS-2D • CGWAVE • CMS-Flow • CMS-Wave • GenCade • STWAVE • WAM | |
Riverine/Estuarine Models: | AdH • HEC-RAS • HYDRO AS-2D • RMA2 • RMA4 • SRH-2D • TUFLOW • TUFLOW FV | |
Aquaveo • SMS Tutorials • SMS Workflows |