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• SMS:Model Coverage File
  ...that stores all the geometry and attributes associated with model specific coverage in SMS. Examples of these coverages include (but are not limited to): * EWN Features coverage
  2 KB (371 words) - 19:10, 15 August 2022

Page text matches

• SMS:Model Coverage File
  ...that stores all the geometry and attributes associated with model specific coverage in SMS. Examples of these coverages include (but are not limited to): * EWN Features coverage
  2 KB (371 words) - 19:10, 15 August 2022
• SMS:DMC File
  #redirect [[SMS:Model Coverage File]]
  37 bytes (5 words) - 21:42, 12 April 2022
• SMS:Export Map Coverage
  #redirect [[SMS:Model Coverage File]]
  37 bytes (5 words) - 21:42, 12 April 2022
• WMS:XPSWMM
  ...]]. Several scenarios can exist where WMS is useful for developing a SWMM model. Here are three scenarios the WMS developers have considered: == Case 1: Exporting a hydrologic model to xpswmm ==
  3 KB (421 words) - 17:59, 17 October 2017
• SMS:Generic Grid Model
  The Generic Cartesian Grid model provides a limited number of tools and options in the Cartesian Grid module {{Generic Grid Model}}
  2 KB (276 words) - 14:45, 4 June 2019
• WMS:1D-Hyd Cross Section Coverage Type WMS 10.1 and Older
  ...overage is used in conjunction with the cross sections and digital terrain model in order to determine the thalweg position, or lowest point in the cross se ...n cutting the cross sections, or can be assigned manually (imported from a file or entered directly) using the cross section editor.
  2 KB (251 words) - 14:52, 30 October 2018
• WMS:Hydraulic Modeling
  [[File:Hydraulic Model.png|thumb|250 px|Example of a hydraulic model]] ...Ns and coverages) to build the basic geometry necessary for a 1D Hydraulic Model. Much of the information for developing models with these tools is describe
  4 KB (684 words) - 16:56, 13 June 2018
• SMS:AdH Simulations
  [[File:AdH Simulation.png|thumb|250 px|Example of an AdH simulation in the Project ...13.3. A simulation should contain a 2D mesh and an AdH boundary conditions coverage, and optional AdH coverages. Right-clicking on the simulation will display
  3 KB (532 words) - 19:55, 11 September 2023
• GMS:Conceptual Model
  ...Coverage Setup'' dialog depend on the model associated with the conceptual model. The conceptual model tools are included with all [http://www.aquaveo.com/software/gms-pricing pa
  2 KB (386 words) - 14:33, 15 August 2017
• SMS:ADCIRC Graphical Interface 12.3 and earlier
  ...ls to assist with creating, editing and debugging an [[SMS:ADCIRC|ADCIRC]] model. The [[SMS:ADCIRC|ADCIRC]] interface exists in the [[SMS:Mesh Module|2D Mes === Model Control ===
  2 KB (304 words) - 16:03, 11 December 2018
• WMS:Area Property Coverage
  ...sed to map Manning's roughness values to the cross sections of a hydraulic model. ...ctions when cutting from a digital terrain model. As part of the hydraulic model the material IDs are assigned unique Manning's roughness values (in the cas
  2 KB (305 words) - 16:55, 13 June 2018
• WMS:Import and Export GIS Files
  The '''Import GIS File''' and '''Export GIS File''' commands in the ''HEC-RAS'' menu can do the following: ==Import GIS File==
  2 KB (359 words) - 15:44, 29 November 2017
• SMS:Generic Coverages
  ...item and selecting '''New Coverage''' command followed by using the ''New Coverage'' dialog.. These coverages can be used with most models and simulations. ...erline Coverage]] – Used to identify the centerline in the hydraulic model.
  3 KB (424 words) - 20:04, 15 August 2022
• SMS:CMS-Flow Menu
  ...o assist with creating, editing, and debugging a [[SMS:CMS-Flow|CMS-Flow]] model. The [[SMS:CMS-Flow|CMS-Flow]] interface exists as a simulation. The simula ...ols for setting up a simulation and analyzing the datasets computed by the model.
  4 KB (554 words) - 22:20, 18 January 2022
• SMS:Coverages
  ...The coverages are grouped into conceptual models. The type of the active coverage is displayed in the [[SMS:Object Info|information]] box displayed from the ...n't necessarily coincide with meshing zone boundaries. Alternatively, one coverage could define Cartesian grid parameters for the same zone.
  6 KB (962 words) - 19:26, 20 December 2022
• WMS:HEC-HMS Convert Grids
  ...n the [[WMS:HEC-HMS Defining the Meteorological Model|''HMS Meteorological Model'' dialog]]. ...irst grid in the file list. Each additional grid will be saved to the DSS file based on the time interval specified in the ''HMS Job Control'' dialog and
  2 KB (374 words) - 21:25, 12 December 2023
• SMS:ADCIRC Graphical Interface 13.0
  ...ls to assist with creating, editing and debugging an [[SMS:ADCIRC|ADCIRC]] model. [[File:ADCIRC Simulation.png|thumb|175 px|Example of an ADCIRC simulation in the P
  5 KB (772 words) - 18:42, 5 April 2021
• GMS:MODAEM Commands
  When the MODAEM model is active, the ''MODAEM'' menu becomes available. The menu has the followin ; Solve : This command will execute the MODAEM model.
  743 bytes (100 words) - 18:18, 22 August 2016
• SMS:SRH-2D Simulation 13.0
  [[File:SRH Simulation.png|thumb|175 px|Example of an SRH-2D simulation in the Proj ...D simulation can have its own parameters based on what is entered into the model control.
  4 KB (692 words) - 18:44, 5 April 2021
• WMS:Conceptual Model
  ...ht|A SWMM hydraulic model with arcs representing links and nodes in a SWMM model and the symbols corresponding to links and nodes in the hydraulic schematic ...As updates are made to the conceptual model, the hydrologic or hydraulic model are automatically updated.
  2 KB (262 words) - 20:32, 20 December 2019
• WMS:Storm Drain
  ...ently, this coverage only supports links and nodes for the [[WMS:SWMM|SWMM model]]. ...c|hydraulic schematic]] from the coverage. After having done this, define model specific data on the hydraulic schematic in the [[WMS:Project Explorer Cont
  5 KB (866 words) - 16:25, 3 January 2019
• SMS:Activity Classification Coverage
  [[File:ActvityClassification.png|thumb|250 px|''Activity Classification Coverage'' dialog]] ...the model run time in models that do automatically classify activity. The coverage can use all of the standard Map module [[SMS:Interface Components|interface
  2 KB (265 words) - 16:01, 17 November 2016
• SMS:CMS-Wave Spectral Coverage
  ...his spectral data is defined using a spectral coverage. Each node in this coverage can be assigned to one spectral grid, defining the conditions at that locat ==Coverage Properties==
  3 KB (410 words) - 14:34, 30 March 2017
• SMS:1D River Module Menus
  The 1D river module makes use of the [[SMS:File Menu|''File'']], [[SMS:Edit Menu|''Edit'']], [[SMS:Display Menu|''Display'']], and othe ==Model Specific Menus==
  2 KB (243 words) - 14:06, 12 June 2019
• SMS:Holland\PBL
  ...with ADCIRC. Running ADCIRC directly from SMS also works fine, and various model checks have been implemented to help catch mistakes and avoid crossing ADCI ...e ''Models | Wind'' | '''Holland/ PBL'''. Alternately, convert an existing coverage by right-clicking it and selecting ''Type | Models | Wind ''| '''Holland/ P
  4 KB (692 words) - 14:11, 11 June 2019
• SMS:Managing Cross Sections
  ...basis for the development of the cross section data in the ArcHydro data model. Cross sections in the database can be used for the development of hydrau ...to open a cross section database using the '''Open''' command from the ''File'' menu.
  2 KB (344 words) - 14:38, 18 September 2017
• SMS:STWAVE Graphical Interface
  ...ls to assist with creating, editing and debugging an [[SMS:STWAVE|STWAVE]] model. [[File:STWAVE simulation.png|thumb|175 px|Example of an STWAVE simulation in the P
  6 KB (887 words) - 21:47, 6 September 2022
• WMS:SWMM
  [[File:SWMMAttributes.png|thumb|550 px|Attributes mapped to a SWMM model]] ...s and peak flows which can then be fed into the hydraulic component of the model. The hydraulic component lets engineers analyze the capacity of a current s
  4 KB (575 words) - 17:53, 17 October 2017
• WMS:GSSHA Model Linkage
  [[File:WMS GSSHA Model Linkage dialog.png|thumb|right|380 px|''GSSHA Model Linkage'' dialog]] ...ontrol|''GSSHA Job Control'' dialog]]. It allows linking the current GSSHA model to other GSSHA models: a child project, a parent project, or both.
  3 KB (561 words) - 21:29, 15 May 2019
• GMS:GIS to Feature Objects
  ...rcs, polygons in coverages) for use in a [[GMS:Conceptual Model|conceptual model]]. Attributes associated with the GIS data can also be mapped over to attri ...n the active coverage. Also, if mapping over attributes, make sure the GMS coverage attributes are defined before doing the conversion.
  1 KB (239 words) - 14:48, 9 April 2018
• SMS:Feature Object Commands
  ...module, when [[SMS:CGWAVE|CGWAVE]] or [[SMS:ADCIRC|ADCIRC]] is the active coverage type. A domain is the region to be filled by a finite element mesh. An ocea [[File:ADCIRC DomainOptions.png|thumb|230 px|Example of the ''Domain Options'' dia
  4 KB (617 words) - 15:12, 11 October 2017
• SMS:ADH Wind Stations
  ...verage]] in the Map module. The [[SMS:Spatial Data Coverage|Spatial Data]] coverage is used because it allows the specification of generic time series data at # Create a new Spatial Data coverage and give it a descriptive name.
  5 KB (817 words) - 20:13, 11 September 2023
• SMS:BOUSS-2D Simulations
  [[File:BOUSSsimulation.png|thumb|300 px|Example of the project explorer containing ...ing in SMS 11.2. A simulation should contain a BOUSS-2D grid, a wave maker coverage, and optional damping and porosity coverages. Right-clicking on the simulat
  5 KB (830 words) - 21:24, 16 June 2020
• SMS:1D Hyd Centerline Coverage
  ...ny cross sections that are automatically extracted from at digital terrain model. A centerline arc provides the backbone of the hydraulic model definition. It's direction should be from upstream to downstream as this is
  2 KB (313 words) - 22:48, 15 August 2022
• WMS:1D-HYD Centerline Coverage Type
  ...any cross sections that are automatically extracted from a digital terrain model. ...arc defines the stream thalweg, and provides the backbone of the hydraulic model definition. It generally follows the flow of the river, and may not actuall
  2 KB (271 words) - 18:47, 4 January 2024
• SMS:HEC-RAS 11.2 and earlier
  ...itical, supercritical, and mixed flow regime profiles. HEC-RAS is able to model obstructions in the flow path. The [[SMS:HEC-RAS 11.2 and earlier|HEC-RAS]] model makes use of the 1D river module. The ''HEC-RAS'' menu has the following co
  4 KB (582 words) - 15:28, 13 June 2019
• WMS:Defining Roughness
  ...ent land use (roughness) types found in the floodplain. After building the coverage, define each polygon attribute by double-clicking on the polygon and assign #:[[File:WMS HEC RAS MP.png|150 px]]
  2 KB (266 words) - 20:30, 8 June 2023
• SMS:ADCIRC Graphical Interface
  ...ls to assist with creating, editing and debugging an [[SMS:ADCIRC|ADCIRC]] model. [[File:ADCIRC Simulation.png|thumb|175 px|Example of an ADCIRC simulation in the P
  7 KB (975 words) - 21:15, 9 February 2023
• SMS:TUFLOW Linking 2D Domains
  [[File:TUFLOW-2D-2DLinkSimulation.png|thumb|250 px|Example of linking 2D domains i ...ct [https://www.tuflow.com/Default.aspx TUFLOW] to add this feature to the model license.
  2 KB (274 words) - 19:06, 8 March 2018
• WMS:NSS Region Coverage
  ...can be generated so that regions can automatically be mapped to a drainage coverage when performing hydrologic analysis using the NSS regression equations. Ind ...image in the background, digitize the lines and build the polygons of the coverage.
  2 KB (317 words) - 15:10, 26 October 2016
• SMS:Snapping
  ==Snapping Feature Objects within a Coverage== Within a coverage, the [[SMS:Feature_Object_Modification:_All#Clean|''Clean'']] tool can be u
  4 KB (714 words) - 22:56, 4 December 2020
• WMS:SMPDBK Post Processing
  ...ine and 1D Hyd Cross Section coverages. This can be done by selecting each coverage to make it active and then selecting '''Interpolate Water Surface Elevation ...en delineating the floodplain again using the ''User defined flood barrier coverage'' option (see Figure 3 below).
  2 KB (254 words) - 23:50, 12 December 2017
• SMS:Generic Model
  ...interface whereby any two-dimensional finite element or finite difference model can be run using SMS as a pre- and post-processor. The generic model interface can be added to a [http://www.aquaveo.com/software/sms-pricing pa
  5 KB (814 words) - 21:24, 2 May 2023
• SMS:Importing Shapefiles
  ...vide an easy method to import GIS data into SMS. Unfortunately the shape file format is extremely redundant, meaning that points or lines that are share Therefore, in order to convert a shape file to a SMS coverage, it may take up to several minutes (depending on size) to build the correc
  3 KB (416 words) - 19:22, 24 August 2017
• SMS:Model Specific Coverages
  ...ommand followed by using the [[SMS:Coverages#Creating_a_New_Coverage|''New Coverage'']] dialog. The following model specific coverages are available:
  7 KB (1,053 words) - 20:07, 10 August 2021
• SMS:GIS to Feature Objects Wizard
  [[File:GIS to Feature Step1.png|thumb|450px|right|''GIS to Feature Objects Wizard' [[File:GIS to Feature Objects Wizard -- Step 1 of 2.jpg|thumb|500px|right|''GIS to
  4 KB (614 words) - 22:52, 21 November 2017
• GMS:HydroGeoSphere Point Properties
  ...s the only option available to assign to a feature object, relative to the coverage type. ...p.png|thumb|350 px|''Point Properties'' dialog for the boundary conditions coverage]]
  4 KB (637 words) - 15:04, 2 May 2024
• WMS:Map Module
  [[File:MapModuleExample.png|thumb|250 px|Examples of arcs drawn over DEM data in t ...d be used to define [[WMS:Land Use Coverage|land use]] and [[WMS:Soil Type Coverage|soil zones]].
  2 KB (387 words) - 22:09, 18 December 2019
• SMS:SRH-2D Simulation
  [[File:SRH Simulation.png|thumb|175 px|Example of an SRH-2D simulation in the Proj ...D simulation can have its own parameters based on what is entered into the model control.
  6 KB (1,077 words) - 16:03, 23 June 2023
• WMS:Extract Cross Sections
  ...the ''River Tools'' menu uses the cross section arcs and a digital terrain model (TINs are the only source that can currently be used) to extract the elevat ...lweg, left bank, right bank) can be defined from a 1D-Hydraulic Centerline coverage, or by AutoMark. The ''AutoMark'' option will examine the elevations of the
  2 KB (292 words) - 16:57, 13 June 2018
• SMS:1D Module
  ...data (coverages) to build the basic geometry necessary for a 1D hydraulic model. Much of the information for developing [[SMS:SMS Models|models]] with the Currently the only major model supported is [[SMS:HEC-RAS|HEC-RAS]].
  3 KB (483 words) - 22:16, 24 March 2022
• SMS:Wave Gages
  ...rt of material on the shoreline and the shoreline morphology. The GenCade model allows defining multiple wave gages, providing for spatially varied driving ...Each wave event has a date and time, a H0, a period, and a direction. The model computes the wave conditions for each cell in the grid by interpolating the
  4 KB (631 words) - 14:21, 15 July 2019
• WMS:Editing Cross Sections
  ...lly. In such cases, and many times after extraction from a digital terrain model, there are edits that must be performed in order to prepare the cross secti ...in a [[WMS:1D-HYD Cross Section Coverage Type|1D Hydraulic Cross Section]] coverage. After assigning the cross section, it also possible to enter the editor fo
  5 KB (849 words) - 22:48, 4 May 2020
• GMS:MODAEM
  {{Infobox Model | ...is the case with finite difference and finite element models. Rather, the model is defined by “analytic elements” representing line sources and sinks s
  4 KB (659 words) - 15:45, 28 June 2018
• WMS:River Tools
  ...y support the HEC-RAS model, but will be used to support the FHWA BriStars model as well as additional hydraulic models that will be supported in future ver ...am below illustrates how these coverages are used to establish a hydraulic model.
  5 KB (810 words) - 22:55, 4 May 2020
• WMS:Interpolating Hydraulic Model Results
  After running a 1D Hydraulic model like HEC-RAS, the result is a water surface elevation (or hydrograph for a :[[File:InterpolatingHydraulicModelResults1.png]]
  2 KB (283 words) - 20:49, 28 November 2022
• WMS:Managing Cross Sections
  ...e basis for the development of the cross section data in the ArcHydro data model. Cross sections in the database can be used for the development of hydrauli ...e to open a cross section database using the '''Open''' command from the ''File'' menu.
  3 KB (415 words) - 22:38, 4 May 2020
• SMS:PTM Graphical Interface
  ; [[SMS:Model Checker|'''Model Check''']] : Checks the active PTM simulation for common input errors. ...Opens the ''Model Control'' dialog (used to organize input files, specify model parameters, choose output options, etc.).
  3 KB (534 words) - 15:48, 13 September 2017
• SMS:TUFLOW 2D Geometry Components
  ...to modify the Z values. The purpose of each coverage is dependent upon the coverage type. Some coverages will modify z values and others will control other att ...rer links]] inside of a 2D geometry component. Only one grid or grid frame coverage may be linked in each geometry component.
  5 KB (780 words) - 16:01, 9 October 2017
• SMS:Define TUFLOW domain
  ...d frame]] inside a [[SMS:TUFLOW 2D Geometry Components|TUFLOW Grid Extents coverage]]. ...T2D Z Lines/Polygons (Simple) Coverage|TUFLOW 2D Z Lines/Polygons (Simple) coverage]] can also be used to force elevations using arcs or polygons.
  3 KB (569 words) - 16:06, 6 October 2017
• SMS:TUFLOW AD
  [[Image:TUFLOW AD.png|thumb|450 px|TUFLOW ''Model Control'' dialog showing the ''Constituents'' tab.]] The constituent data is entered in the ''TUFLOW 2D Model Control'' of the TUFLOW simulation. The ''Constituents'' tab allows enterin
  3 KB (486 words) - 16:59, 12 August 2019
• SMS:Area Property Coverage
  An area property coverage is used to map properties such as Manning's roughness values to the mesh, g ...o represent the different Manning's roughness values to be included in the model (stream, floodplain, field, roadway, etc.). Polygons can then be created to
  2 KB (364 words) - 15:07, 11 September 2019
• SMS:Map Project Explorer
  ...project is created in SMS, a coverage will be automatically created. This coverage is named "Area Property", and it will be set to the default area property t Right-clicking on the Map module root folder [[File:Map Folder.svg|16 px]] in the Project Explorer invokes an options menu with
  4 KB (708 words) - 19:13, 31 August 2020
• SMS:Coastline Files *.cst
  ...d [[SMS:CGWAVE|CGWAVE]] type [[SMS:Coverages|coverages]]. When a Coastline file is read into SMS, feature arcs are created. If a coastline closes, the fina ...u [[SMS:File Menu|''File'' | '''Open''']] and saved from [[SMS:File Menu|''File ''| '''Save As...''']] from the [[SMS:Map Module|Map module]].
  2 KB (230 words) - 16:05, 26 September 2017
• GMS:What's New in GMS 7.1
  ..., and for the Map -> X commands where X is a geometric object or numerical model. ##Better handling of unsupported MODFLOW packages in the Name file
  2 KB (299 words) - 14:25, 12 September 2016
• GMS:Map to Models
  ===Map to Model Dialog=== The ''Map → Model'' dialog provides a few options for how feature objects in Map module will
  3 KB (463 words) - 14:53, 15 August 2017
• SMS:Object Info
  ...] '''Get Module Info''' macro or using the '''Get Info''' command in the ''File'' menu. *For selected coverage:
  4 KB (524 words) - 16:47, 19 September 2019
• SMS:CMS-Flow Simulation
  ...simulation can have its own parameters based on what is entered into the ''Model Control''. Each simulation can share the same components or use different c ...MS-Flow [[SMS:CMS-Flow_Coverages#Boundary_Conditions|Boundary Conditions]] coverage
  5 KB (719 words) - 19:10, 21 September 2017
• SMS:3D Bridge
  [[File:3dbridge.png|thumb|400 px|3D bridge example]] The 3D bridge component can be used to for multiple purposes in a model. These include:
  7 KB (1,067 words) - 19:47, 6 October 2023
• SMS:BOUSS Runup / Overtopping
  ...p / Overtopping model can used to in the design of coastal structures. The model runs a simulation based on user-specified parameters. ...r. Select the coverages that will be created for the project and give each coverage the desired name. Click '''OK'''.
  10 KB (1,519 words) - 15:41, 16 July 2019
• WMS:Mapping Tables
  ...nking parameter values to index maps. See [[WMS:WMS Supported File Formats|File Formats]] for the different mapping parameters. The [https://gsshawiki.com/ ...s the mapping tables created using those coverages, or manually via a text file.
  2 KB (290 words) - 00:27, 21 December 2019
• SMS:Editing Cross Sections
  ...y. In such cases, and many times after extraction from a digital terrain model there are edits that must be performed in order to prepare the cross secti # When double-clicking on an arc in a 1D Hydraulic Cross Section coverage, it's possible to assign a cross section from a database. After assigning
  5 KB (846 words) - 20:48, 18 April 2022
• WMS:GSSHA Menu
  ...p Module Icon.svg|16px]] and the other through the '''2-D Grid Module''' [[File:2D Grid Icon.svg|14px]]. {{anchor|GSSHA Coverage Menu}}
  6 KB (964 words) - 17:57, 21 May 2021
• SMS:TUFLOW FV
  {{SMS Infobox Model | ...ter quality processes in oceans, coastal waters, estuaries and rivers. The model may be used for coastal and nearshore environments including beaches and co
  7 KB (1,012 words) - 17:14, 28 March 2023
• WMS:Land Use Coverage
  ...Use coverage in WMS has a different purpose depending on the model and/or model parameters assigned to basins using land use as an indicator. The followin ...NRCS) Curve Numbers for hydrologic soil groups (requires the use of a soil coverage as well).
  3 KB (520 words) - 15:46, 10 January 2024
• GMS:CAD Options
  ...splayed to assist in model placement or simply to enhance the display of a model. ...n. To turn off the display of all CAD data, uncheck the box next to the "[[File:CAD Folder.svg|16 px]] CAD" folder.
  4 KB (642 words) - 14:24, 13 June 2022
• SMS:GenCade Graphical Interface
  ...modify project parameters, and view the solutions produced by the GenCade model. The GenCade interface exists in the [[SMS:1D Grid Module|1D Grid module]] ...is much more convenient to work with the conceptual model using a GenCade coverage.
  5 KB (785 words) - 15:13, 9 April 2019
• SMS:CMS-Wave Graphical Interface
  ...simulation can have its own parameters based on what is entered into the ''Model Control''. Each simulation can share the same components or use different c *A observation cells coverage
  6 KB (912 words) - 21:31, 20 November 2023
• SMS:EFDC Coverage
  The EFDC coverage is used to create curvilinear grids for use with the EFDC model (EFDC grid format). A curvilinear grid has I and J coordinates but the cell The coverage doesn't contain any point or arc attributes.
  5 KB (706 words) - 14:07, 4 June 2019
• WMS:Soil Type Coverage
  ...s similar to the land use coverage in that it can be used to map different model parameters (related to soil type) from polygonal coverages (usually importe ...ologic soil group to map SCS Curve Numbers (requires the use of a land use coverage as well).
  3 KB (500 words) - 21:56, 18 December 2019
• WMS:HEC-RAS
  [[File:Wmsras1.PNG|thumb|400 px|HEC-RAS example]] ...itical, supercritical, and mixed flow regime profiles. HEC-RAS is able to model obstructions in the flow path.
  7 KB (1,097 words) - 20:32, 8 June 2023
• SMS:ADCIRC Coverage 12.3 and earlier
  ...S:ADCIRC|ADCIRC]] project. The conceptual model defines parameters such as model extents, mesh generation options, and boundary conditions. == ADCIRC Conceptual Model Development ==
  3 KB (494 words) - 14:25, 17 June 2019
• SMS:1D Grid Module
  The 1D grid module [[File:1D Grid Icon.svg|16 px]] is used to display 1D coastal data. ...can be created from a map coverage using the '''Create 1D Grid Frame''' [[File:Create 1D Grid Frame Tool.svg|16 px]] tool. A 1D grid is oriented with the
  2 KB (400 words) - 18:15, 3 February 2022
• SMS:Spectral Events
  [[File:SpectralEvents.jpg|thumb|450 px|''Spectral Events'' dialog]] ...rol'' dialog or through the '''Define Cases...''' button in the ''CMS-WAVE Model Control'' dialog.
  4 KB (655 words) - 21:49, 6 September 2022
• WMS:Overview of Floodplain Delineation
  ...r hydraulic model or collected from different sources are read from a text file as a scatter dataset (see [[WMS:Preparing Stage Data|preparing stage data]] ...ion of the water surface). Such points could be the results of a hydraulic model simulation, calculated in the WMS channel calculator, or retrieved from a k
  6 KB (942 words) - 15:57, 14 December 2017
• WMS:GSSHA
  ...lish the computational domain and parameters for surface runoff. The GSSHA model is fully coupled with hydraulic stream flow/routing models. Parameters for ...The fully coupled groundwater to surface-water interaction allows GSSHA to model basins in both arid and humid environments."<ref name="GSSHA overview"/>
  6 KB (999 words) - 23:05, 13 May 2021
• GMS:Building a FEMWATER Model
  ...feature object tools in the [[GMS:Map Module|Map module]] (the conceptual model approach). A horizons to 3D mesh approach can also be used. ==Basic Steps in Building a FEMWATER Model==
  9 KB (1,467 words) - 21:15, 5 October 2017
• SMS:Quick Tour - Datasets
  ...steady state or transient (multiple time steps). Most datasets represent model solutions but datasets also result from interpolation and operations on exi [[File:SMS Dataset Toolbox.png|600 px]]
  789 bytes (117 words) - 15:45, 1 May 2020
• SMS:Map Feature Objects Menu
  ...SMS session and creates a new blank coverage (since SMS requires an active coverage at all times). SMS will ask for confirmation of this action. ...p an ''Attributes'' dialog. The specifics of the dialog are unique to each coverage.
  6 KB (976 words) - 16:35, 17 March 2022
• SMS:Map Module
  ...pes to learn about the attributes associated with objects in that specific coverage. ...overages is to define geometric objects for data extraction from numerical model results.
  7 KB (1,106 words) - 21:38, 17 March 2022
• SMS:Extract Cross Section
  ...ross Sections''' command uses the cross section arcs and a digital terrain model (TINs are the only source that can currently be used) to extract the eleva ...weg, left bank, right bank) can be defined from a 1D-Hydraulic Centerline coverage, or by AutoMark. The ''AutoMark'' option will examine the elevations of the
  2 KB (245 words) - 16:45, 29 December 2015
• SMS:Mesh Data Menu
  ...itch Current Model]] : Model command &ndash; changes the current numerical model associated with the mesh. ...neric model has been loaded into SMS, this command will remove the generic model.
  6 KB (861 words) - 16:24, 17 March 2022
• WMS:CE-QUAL-W2
  ...for setting up the CE-QUAL-W2 bathymetry and control files. The CE-QUAL-W2 model can be added to a [http://www.aquaveo.com/software/wms-pricing paid edition ==Creating and Running a CE-QUAL-W2 Model using WMS==
  6 KB (961 words) - 20:28, 5 June 2023
• SMS:CGWAVE Incident Wave Conditions
  ....jpg|thumb|200 px|The ''Incident Wave Conditions'' section of the ''CGWAVE Model Control'' dialog.]] The ''Incident Wave Conditions'' section of the ''CGWAVE Model Control'' dialog allows specifying wave conditions to be simulated in a run
  3 KB (504 words) - 22:41, 16 May 2018
• SMS:Summary Table Workflow
  !style="text-align:left;"|3. Import model solution sets. :If a model solution set has not already been loaded into the project, complete the fol
  2 KB (357 words) - 14:52, 24 April 2018
• WMS:Using GIS Data to Map Parameters
  ...ns have been created which will overlay the parameter map on the watershed model and assign the appropriate value to each sub-basin. These functions can be ...e|Soil Type Coverage]], then [[WMS:Importing Shapefiles|import the polygon file]] and ensure that the ''Soil Number'' field (often called CLASS_NO by the L
  5 KB (871 words) - 19:52, 4 January 2024
• WMS:Maricopa County Modeling
  ...n "giras.exe" will be the file needed. The soils shapefile will be in the file ending in "core31.exe". A HUC number is needed for the watershed, whichcan # Create a new Land Use coverage and make sure it's set as the active coverage.
  5 KB (775 words) - 20:59, 22 July 2020
• SMS:Digitize
  ...to digitize aspects of an image (*.tif, *.jpg, ...), simply load the image file into SMS and select the desired tool from the [[SMS:Map Module Tools|Map mo *Use the '''Create Feature Arc''' [[File:SMS Create Arc Tool.svg|16 px]] tool to make arcs. Click once to start an a
  4 KB (642 words) - 14:57, 26 June 2017
• SMS:Compute Volumes Workflow
  :***Delta bed dataset computed by a sediment transport model. :**Can be defined interactively but defining it in a map coverage is recommended.
  5 KB (705 words) - 19:48, 9 March 2023
• SMS:TUFLOW Simulation
  [[File:TUFLOWsimulation.png|thumb|225 px|Example of the project explorer containin A simulation includes the domain, boundary conditions, model parameters, event definition, and material set used for a single TUFLOW run
  4 KB (661 words) - 14:12, 9 August 2017