User:Rcorrigan/Workflow Tests: Difference between revisions

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__NOINDEX__
[[User:Rcorrigan/MODFLOW6 Workflows]]


==Quadtree Generation==
{|class="mw-collapsible mw-collapsed" style="width: 100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|1. Create a [[SMS:Quadtree_Module#Quadtree_Generator_Coverage|Quadtree Generator]] map coverage.
|-
|
:Create a new coverage with the "Quadtree Generator" type.
<blockquote>
{{SMS new coverage workflow}}
</blockquote>
|}
{|class="mw-collapsible mw-collapsed" style="width: 100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|2. Create a quadtree grid frame.
|-
|
{{SMS Create Grid Frame Workflow}}
|}
{|class="mw-collapsible mw-collapsed" style="width: 100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|3. Generate quadtree from the Quadtree Generator coverage.
|-
|
:# Select the Quadtree Generator coverage and use the [[SMS:Quadtree_Module#Map to Quadtree|'''Map &rarr; Quadtree UGrid''']] right-click command.
:# Set the grid parameters in the [[SMS:Converting_Feature_Objects#Map_to_Quadtree|''Map &rarr; Quadtree UGrid'']] dialog.
|}<noinclude>[[Category:SMS Workflow Templates|Generate]]</noinclude>
==SRH-2D Reports==
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|8. Generate and review the [[SMS:SRH-2D Summary Report|SRH-2D summary report]].
|-
|
:The summary report allows many reports to be generated at once and viewed in an internet browser. To do so, follow these steps:
<blockquote>
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|1. Generate the SRH-2D summary report.
|-
|
:#Right-click on an existing [[SMS:SRH-2D Simulation|SRH-2D simulation]] and use the [[SMS:SRH-2D Summary Report|''Tools''|'''Summary Report''']] command.
:#Enter relevant notes in the [[SMS:SRH-2D Summary Report#SRH-2D_Project_Summary_Report_Dialog|''SRH-2D Project Summary Report'']] dialog.
:#Click '''OK''' to run the Summary Report tool.
|}
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|2. Review the [[SMS:SRH-2D Summary Report#Summary_Report_Output|summary report]].
|-
|
<blockquote>
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|1. Open the summary report.
|-
|
:The summary report should automatically appear in a web browser when the Summary Report tool is finished running. If it does not, please follow the steps below:
:#Navigate to where the project file is saved and open the ''reports'' folder then the ''srh-2d_summary_reports'' folder.
:#Select the "index.html" file and open it in a web browser.
|}
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|2. Review Data.
|-
|
:The summary report includes much numerical and model data. It also includes three interactive features for reviewing data:
:#Use the links in the table of contents to quickly navigate to a desired section.
:#Use the maps to visually review coverages, mesh, and scatter set data by zooming and panning.
:#Use the plots to visually review data by using the toolbar on top of the plot.
|}
|}
</blockquote>
|}
==UGrid Clipping Template==
{| class="mw-collapsible mw-collapsed" style="width:80%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|1. Use a clipping plane.
|-
|
<blockquote>
{{SMS UGrid Clipping Plane Workflow}}
<blockquote>
|}
{| class="mw-collapsible mw-collapsed" style="width:80%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|2. Clip to a scalar value.
|-
|
:# Select the [[GMS:Display Menu|''Display'' | '''Display Options''']] menu command.
:# In the [[SMS:UGrid_Display_Options|''UGrid'']] tab for the UGrid that is to be adjusted, turn on the ''Clip'' options and click the '''Options''' dialog.
:#*Adjusting in the general UGrid tab will not have the desired effect.
:# In the [[SMS:UGrid_Display_Options#UGrid_Clip_Settings|''UGrid Clip Settings'']] dialog, select the "Scalar" setting and set the scalar value.
:#* Only values above the selected scalar value will be displayed.
|}
{| class="mw-collapsible mw-collapsed" style="width:80%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|3. Clip to a scalar range.
|-
|
:# Select the [[GMS:Display Menu|''Display'' | '''Display Options''']] menu command.
:# In the [[SMS:UGrid_Display_Options|''UGrid'']] tab for the UGrid that is to be adjusted, turn on the ''Clip'' options and click the '''Options''' dialog.
:#*Adjusting in the general UGrid tab will not have the desired effect.
:# In the [[SMS:UGrid_Display_Options#UGrid_Clip_Settings|''UGrid Clip Settings'']] dialog, select the "Scalar Range" setting and set the range values.
:#* Only values within the selected scalar values will be displayed.
|}<noinclude>[[Category:UGrid Workflow Templates|Clipping]]</noinclude>
==Sediment Volume Management==
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|1. Create a [[SMS:Sediment Volume Management|Sediment Volume Management coverage]].
|-
|
:Create a new coverage with the "Sediment Volume Management" type. It's under the ''Engineering with Nature'' section.
{{SMS empty new coverage workflow}}
|}
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|2. Create feature objects in the Sediment Volume Management coverage.
|-
|
<blockquote>
{{SMS Create Polygons Workflow}}
</blockquote>
|}
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left"|3. Assign [[SMS:Sediment Volume Management#Sediment_Volume_Management_Polygon_Attributes|Sediment Volume Management]] attributes to polygons.
|-
|
:#Use the [[SMS:Map Module Tools#Select_Feature_Polygon|Select Feature Polygon]] [[File:SMS Select Polygon Tool.svg||16px]] tool to select a feature object polygon in the Sediment Volume Management coverage.
:#Right-click on the selected polygon and use the [[SMS:Sediment Volume Management|'''Sediment Properties...''']] command.
:#Enter the desired attributes in the ''Sediment Volume Management'' dialog.
|}
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left"|4. Use the [[SMS:Sediment Volume Management#Sediment_Volume_Management_Tool|Sediment Volume Management tool]].
|-
|
:#Right-click on the Sediment Volume Management coverage and use the [[SMS:Sediment Volume Management#Sediment_Volume_Management_Tool|'''Sediment Volume Management''' command]].
:#In the ''Sediment Volume Management'' dialog, select a source geometry and a maximum slope. The table under [[SMS:Sediment Volume Management#Sediment_Volume_Management_Tool|''Computation'']] allows for adjusting the already-established sediment properties as desired.
:#Click [[SMS:Sediment Volume Management#Sediment_Volume_Management_Tool|'''Compute''']] to run the Sediment Volume Management tool.
:#Review the results in the ''Computation'' table. Viewing many of the results might require scrolling to the right.
:#Adjust the computation and run again as desired.
|}
==Saving and Importing a Profile Plot==
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|1. Save a [[SMS:Plot Window#Saving_a_Plot|plot file]] in SMS.
|-
|
:There are two ways to save a plot file in SMS:
<blockquote>
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|1. Save the whole project with the plot dialog open.
|-
|
:#With the plot dialog open, use the [[SMS:File Menu#Save_Project|'''Save''']] [[File:Save Macro.svg||16px]] or the [[SMS:File Menu#Save_as...|''File''|'''Save As...''']] command.
:#If this version of the project is opened again, the plot dialog will open with it.
|}
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|2. Save the plot separately.
|-
|
:A separate plot file can be created that can be imported into any project with the same mesh.
:#Make sure that the desired dataset is selected and therefore represented in the plot dialog.
:#With the plot open, use the ''File''|'''Save As...''' command to open the ''Save As'' dialog.
:#Name the file and select "Plot File (*.plt)" next to ''Save as type''.
:#Save the file.
|}
</blockquote>
|}
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|2. Import the plot file.
|-
|
<blockquote>
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|1. Open a project file saved with a plot file
|-
|
:#Use the [[SMS:File Menu#Open|''File''|'''Open''']] command to open the project with the saved plot file in it.
:#The plot will appear with the project as you open it.
|}
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|2. Import a plot file saved separately
|-
|
:If a plot file has been saved separately, it can be imported into another project with the same mesh and datasets with the same name. A profile plot will also require an observation coverage with the same name. The data in the plot will represent the conditions in that project. To import it:
:#Ensure that the open project has all required components to support the plot as described above.
:#Use the ''File''|'''Open''' command to open the ''Open'' dialog and navigate to where the plot file is saved.
:#Open and review the plot.
|}
</blockquote>
|}
For creating the profile plot dialog, see the [[SMS:Observations Workflow|"Observations Workflow"]].
==Plot Data==
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|1. Create a [[SMS:Plot Data Coverage|plot data coverage]].
|-
|
:Create a new coverage with the "Plot Data" type. This coverage type is used in conjunction with the observation coverage to show where a structure will appear on a profile plot created with data from the observation coverage.
{{SMS empty new coverage workflow}}
|}
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|2. Create polygons in the plot data coverage.
|-
|
:It is important that they overlap with observations arcs from the observation coverage.
<blockquote>
{{SMS Create Polygons Workflow}}
</blockquote>
|}
{|class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|3. Create an observation plot.
|-
|
:#Select [[SMS:Display_Menu#Plot Wizard|''Display'' | '''Plot Wizard''']] to start the [[SMS:Plot_Window#Plot_Wizard|''Plot Wizard'']].
:#Select the [[SMS:Observation Profile Plot|"Observation Profile"]] option on the left and click '''Next'''.
:#Select [[SMS:Observation_Profile_Plot#Coverage|arcs]], [[SMS:Observation_Profile_Plot#Dataset|datasets]], and [[SMS:Observation_Profile_Plot#Time_step|time steps]] to be plotted.
:#In the ''Show Intersections'' section of the ''Plot Wizard'', select the boxes in the ''Plot Data'' row.
:#Review [[SMS:Plot Window|plot window]].
|}<noinclude>[[Category:SMS Workflow Templates|Observation]][[Category:SMS Plots]][[Category:Observations]]</noinclude>
==Raster to Flood Depth==
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left"|1. Use raster to calculate flood depths.
|-
|
:This requires an elevations raster and a water surface elevation dataset.
:#Right-click on the raster to be used for the flood depths and use the command [[GIS Conversion and Editing#Flood_Depths|''Convert to''|'''Flood Depths''']].
:#Next to ''Geometry'', select the desired geometry.
:#Next to ''WSE dataset'', selet the desired dataset.
:#After the tool has finished processing, change the File name as desired in the ''Save As'' dialog.
|}
==Interpolating from Multiple Elevation Sources Workflow==
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left"|1. Import elevation sources.
|-
|
<blockquote>
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF ; margin-bottom:0.4em;"
|-
!style="text-align:left"|1. Import rasters.
|-
|
{{SMS Import Raster Workflow}}
|}
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF ; margin-bottom:0.4em;"
|-
!style="text-align:left"|2. Import other GIS data.
|-
|
{{SMS Import GIS Data Workflow}}
|}
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF ; margin-bottom:0.4em;"
|-
!style="text-align:left"|3. Import Scatter Data.
|-
|
{{SMS Import Scatter Data Workflow}}
|}
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF ; margin-bottom:0.4em;"
|-
!style="text-align:left"|4. Import Online Data.
|-
|
<blockquote>
{{SMS Import Online Data Workflow}}
</blockquote>
</blockquote>
|}
|}
{| class="mw-collapsible mw-collapsed" style="width:100%; background: solid #ffffff; border:1px solid #D0E0FF ; margin-bottom:0.4em;"
|-
!style="text-align:left;"|2. Clean up rasters using the tools for rasters in the [[Rasters Tools|toolbox]].
|-
|
:Possibly useful tools include [[Blend Raster to Edges Tool|'''Blend Raster to Edges''']] and [[Clip Raster from Elevation Tool|'''Clip Raster from Elevation''']].
|}
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF ; margin-bottom:0.4em;"
|-
!style="text-align:left"|3. Interpolate raster elevation to geometry to create new elevation dataset.
|-
|
:The [[Interpolate Priority Rasters Tool|''Interpolate Priority Rasters'']]  tool allows for multiple rasters to be used when interpolating onto a geometry. To do so, follow these steps:
<blockquote>
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF ; margin-bottom:0.4em;"
|-
!style="text-align:left"|1. Use the ''Interpolate Priority Rasters'' tool to interpolate raster data onto the desired geometry.
|-
|
:# From the [[SMS:Toolbox|''Toolbox'']], select [[Interpolate Priority Rasters Tool|''Interpolate Priority Rasters'']]
:# Select the geometry to interpolate onto.
:# Select the order of priority for the rasters that will be used for interpolation. The order determines which raster the program will look at first to interpolate data onto the geometry.
:# Run the ''Interpolate Priority Rasters tool''.
|}
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF ; margin-bottom:0.4em;"
|-
!style="text-align:left"|2. Review the data on the geometry.
|-
|
:# Turn off all rasters.
:# Turn on the desired geometry.
:# Adjust the [[SMS:Display Options|'''Display Options''']] [[File:Display Options Macro.svg|16px]].
|}
</blockquote>
|}
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF ; margin-bottom:0.4em;"
|-
!style="text-align:left"|4. Set the map elevation dataset to the newly created dataset.
|-
|
:# While in the appropriate module for the geometry, use the ''Data''|'''Map elevation...''' command.
:# Select the newly created dataset.
:# Adjust the display as desired to review the change in mapped dataset.
|}
==Discarded workflow components==
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF ; margin-bottom:0.4em;"
|-
!style="text-align:left"| Set unassigned node values.
|-
|
:Depending on the rasters used, it's possible that some mesh nodes didn't get assigned elevation values. To assign them values, follow these steps:
:# Right-click on the mesh in the Project Explorer and use the [[SMS:2D Mesh Module Menus#Right-Click Menu''Convert''|'''Mesh &rarr; 2D Scatter''']] command.
:# Select all desired scatter points. ??Include more information on how to do this?
:# Delete the selected scatter points and use the [[SMS:Scatter Triangles Menu#Triangulate_Command|''Triangles''|'''Triangulate''']] command.
:# After switching to the [[SMS:Mesh Module|'''Mesh''' module]], select all nodes with unassigned values in the grid.
:# In the Graphics Window, use the [[SMS:2D Mesh Module Tools#Right-Click_Menu|'''Interpolate elevation''']] right-click command.
:# Set the [[SMS:Scatter_Interpolation#Interpolation_Dialog|''Scatter Set To Interpolate From'']] to the scatter set where the unassigned scatter points have just been removed and interpolate it to this scatter set.
|}
----
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left"|Blend Raster Resolution.
|-
|
:Interpolating data from multiple elevation sources first requires blending the rasters involved. To do so, follow these steps:
:# From the [[SMS:Toolbox|''Toolbox'']], select [[Blend Raster to Edges Tool|'''Blend Raster to Edges''']].
:# Set the [[Blend Raster to Edges Tool#Input_parameters|''Primary raster'']] and the [[Blend Raster to Edges Tool#Input parameters|''Secondary raster'']] options  with the rasters that are to be blended.
:# Specify the distance over which the active edges of the primary raster will be blended into the secondary raster.
:# Specify the name of the [[Blend Raster to Edges Tool#Output_parameters|''Output raster'']]. This will be a separate raster created from the primary and secondary raster.
:# Run the ''Blend Raster to Edges'' tool.
:# Examine the newly created raster.
|}
----
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left"|Clip rasters (optional??).
|-
|
:Trimming rasters ensures that no part of the raster is above surveyed elevations. To do so, follow these steps:
<blockquote>
{| class="mw-collapsible" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left"|1. Clip raster to high resolution.
|-
|
:# From the [[SMS:Toolbox|''Toolbox'']], select [[Clip Raster from Elevation Tool|'''Clip Raster from Elevations''']].
:# Specify the [[Clip Raster from Elevation Tool#Input_parameters|''Raster to clip'']] and the [[Clip Raster from Elevation Tool#Input_parameters|''Elevation raster'']]. Specify if the tool should clip elevations above or below the elevation raster.
:# Set the name of the [[Blend Raster to Edges Tool#Output_parameters|''Output raster'']].
:# Run the ''Clip Raster from Elevations'' tool.
:# Examine the newly created raster.
|}
{| class="mw-collapsible" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left"|2. Clip raster to lower resolution.
|-
|
:# From the [[SMS:Toolbox|''Toolbox'']], select [[Clip Raster from Elevation Tool|'''Clip Raster from Elevations''']].
:# Specify the [[Clip Raster from Elevation Tool#Input_parameters|''Raster to clip'']] and the [[Clip Raster from Elevation Tool#Input_parameters|''Elevation raster'']]. Specify if the tool should clip elevations above or below the elevation raster.
:# Set the name of the [[Blend Raster to Edges Tool#Output_parameters|''Output raster'']].
:# Run the ''Clip Raster from Elevations'' tool.
:# Examine the newly created raster.
|}
</blockquote>
|}
----
:This step assumes an already-created ''EWN Features'' coverage.
<blockquote>
{{SMS Digitize Workflow}}
{|class="mw-collapsible mw-collapsed" style="width: 100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|3. Convert shapefile data to arc.
|-
|
:#Select a shapefile dataset in the GIS module and use the [[SMS:GIS_Module_Menus#GIS_Module_Right-Click Commands|''Convert'' | '''Shape&rarr;Feature Objects''']] command.
:#Use the [[SMS:GIS to Feature Objects Wizard|''GIS to Feature Objects Wizard'']] to specify how the shapefile attribute will be converted.
|}
{|class="mw-collapsible mw-collapsed" style="width: 100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|4. Create offset arcs
|-
|
:#Select a shapefile dataset in the GIS module and use the [[SMS:GIS_Module_Menus#GIS_Module_Right-Click Commands|''Convert'' | '''Shape&rarr;Feature Objects''']] command.
:#Use the [[SMS:GIS to Feature Objects Wizard|''GIS to Feature Objects Wizard'']] to specify how the shapefile attribute will be converted.
|}
</blockquote>
|}
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left"|2. Create polygon for levee.
|}
----
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left"|1. Create polygon for levee.
|-
|
<blockquote>
{{SMS Create Polygons Workflow}}
</blockquote>
|}
{| class="mw-collapsible mw-collapsed" style="width:100%; border:1px solid #D0E0FF; margin-bottom:0.4em;"
|-
!style="text-align:left;"|2. Assign polygon attributes.
|-
|
:#Using the [[SMS:Map Module Tools|'''Select Feature Polygons''']] [[File:SMS Select Polygon Tool.svg|16 px]] tool, select a polygon then right-click and use the '''Assign EWN Attribute''' command.
:#In the [[SMS:EWN#EWN_Polygon_Properties_Dialog|''EWN Polygon Properties'']] dialog, select the ''Classification'' option and assign the appropriate values for the remainder of the dialog.
:#If desired, preview the feature by using the ''Preview'' tab.
|}

Revision as of 21:40, 10 October 2022

User:Rcorrigan/MODFLOW6 Workflows



Quadtree Generation

1. Create a Quadtree Generator map coverage.
Create a new coverage with the "Quadtree Generator" type.
1. Create new coverage from scratch.
  1. Select Map Data in the Project Explorer and use the New Coverage right-click command.
  2. Use the New Coverage dialog to create a new coverage by selecting the desired coverage type, and naming the coverage.
2. Create new coverage from an existing coverage.
  1. Use the Duplicate command on an existing coverage. This will copy any feature objects on the coverage.
  2. Use the Rename command to give the coverage a new name.
  3. Change the coverage type.
2. Create a quadtree grid frame.
  1. Use the Create 2D Grid Frame SMS Create Grid Frame Tool.svg tool to click out a grid frame.
  2. Double-click on the grid frame with the Select 2D Grid Frame SMS Select Grid Frame Tool.svg tool to bring up the Grid Frame Properties dialog.
  3. Use the Grid Frame Properties dialog to refine the dimensions of the grid frame.
3. Generate quadtree from the Quadtree Generator coverage.
  1. Select the Quadtree Generator coverage and use the Map → Quadtree UGrid right-click command.
  2. Set the grid parameters in the Map → Quadtree UGrid dialog.

SRH-2D Reports

8. Generate and review the SRH-2D summary report.
The summary report allows many reports to be generated at once and viewed in an internet browser. To do so, follow these steps:
1. Generate the SRH-2D summary report.
  1. Right-click on an existing SRH-2D simulation and use the Tools|Summary Report command.
  2. Enter relevant notes in the SRH-2D Project Summary Report dialog.
  3. Click OK to run the Summary Report tool.
2. Review the summary report.
1. Open the summary report.
The summary report should automatically appear in a web browser when the Summary Report tool is finished running. If it does not, please follow the steps below:
  1. Navigate to where the project file is saved and open the reports folder then the srh-2d_summary_reports folder.
  2. Select the "index.html" file and open it in a web browser.
2. Review Data.
The summary report includes much numerical and model data. It also includes three interactive features for reviewing data:
  1. Use the links in the table of contents to quickly navigate to a desired section.
  2. Use the maps to visually review coverages, mesh, and scatter set data by zooming and panning.
  3. Use the plots to visually review data by using the toolbar on top of the plot.

UGrid Clipping Template

1. Use a clipping plane.
1. Select a UGrid cell and note vector points.
  1. Use the Select Elements SMS Select Mesh Element Tool.svg tool and note the cell centroid values.
2. Set UGrid clipping display options.
  1. Select the Display | Display Options menu command.
  2. In the UGrid tab for the UGrid that is to be adjusted, turn on the Clip options and click the Options dialog.
    • Adjusting in the general UGrid tab will not have the desired effect.
  3. In the UGrid Clip Settings dialog, select the "Plane" setting and set the plane values.
    • The cell centroid values and normal vector points must be entered.
3. Use the clipping plane widget.
  1. Using the Edit Clip Plane Edit Clip Plane Tool.svg tool, adjust the clipping plane location.
2. Clip to a scalar value.
  1. Select the Display | Display Options menu command.
  2. In the UGrid tab for the UGrid that is to be adjusted, turn on the Clip options and click the Options dialog.
    • Adjusting in the general UGrid tab will not have the desired effect.
  3. In the UGrid Clip Settings dialog, select the "Scalar" setting and set the scalar value.
    • Only values above the selected scalar value will be displayed.
3. Clip to a scalar range.
  1. Select the Display | Display Options menu command.
  2. In the UGrid tab for the UGrid that is to be adjusted, turn on the Clip options and click the Options dialog.
    • Adjusting in the general UGrid tab will not have the desired effect.
  3. In the UGrid Clip Settings dialog, select the "Scalar Range" setting and set the range values.
    • Only values within the selected scalar values will be displayed.

Sediment Volume Management

1. Create a Sediment Volume Management coverage.
Create a new coverage with the "Sediment Volume Management" type. It's under the Engineering with Nature section.
  1. Select Map Data in the Project Explorer and use the New Coverage right-click command.
  2. Use the New Coverage dialog to create a new coverage by selecting the desired coverage type, and naming the coverage.
2. Create feature objects in the Sediment Volume Management coverage.
1. Create enclosed arcs for polygon area.
1. Create feature arcs, nodes and vertices.
In the Map module, create feature objects in the active coverage.
  1. Use the Create Feature Arc SMS Create Arc Tool.svg tool to create arcs in the map coverage.
  2. Begin creating a new arc by clicking in the Graphics Window at either arc end. If clicking on an existing feature node, vertex or arc, the new arc will snap to that object.
  3. Double-click or press the Enter key to terminate the arc.
  4. Use the Create Feature Node Create Points Tool.svg tool to create additional nodes alone or to split arcs.
2. Modify arcs.
Feature arcs often need to be edited after initial creation.
1. Create additional vertices on arcs.
  1. Use the Create Feature Vertex SMS Create Vertex Tool.svg tool to add vertices along arcs.
2. Refine the arc shape.
  1. Use the Select Feature Vertex SMS Select Vertex Tool.svg tool and the Select Feature Node SMS Select Node Tool.svg tool to move/edit existing arcs and refine the shape by dragging the nodes/vertices.
  2. Use the Select Feature Arc SMS Select Arc Tool.svg tool to move entire arcs .
3. Split arcs.
An existing arc can be split by:
1. Converting a vertex to a node.
  1. Use the Select Feature Vertex SMS Select Vertex Tool.svg tool and right-click on a vertex along an arc.
  2. Select the Convert to Node command to split the arc into two arcs.
2. Add a node the arc.
  1. Use the Create Feature Node Create Points Tool.svg tool to add a node on an arc in order to split it into two arcs.
3. Add a new connecting arc.
  1. Use the Create Feature Arc SMS Create Arc Tool.svg tool to start or end a new arc on an existing arc to split the existing arc into two arcs.
4. Use the Split Arcs Tool.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Split Arc(s)... command.
  2. Use the Split Arcs Tool to divide arcs.
5. Split overlapping arcs using the Clean Options dialog.
  1. Select overlapping arcs using the Select Feature Arc SMS Select Arc Tool.svg tool.
  2. Use the Feature Objects | Clean command to bring up the Clean Options dialog.
  3. Select the Intersect selected arcs option (for selected arcs) or Intersect arcs option (for all overlapping arcs) to split the arcs.
4. Merge arcs.
Two arcs that share an end node can be merged together.
  1. Select the shared node using the Select Feature Node SMS Select Node Tool.svg tool.
  2. Right-click on the node and select the Convert to Vertex command to merge the arcs.
  3. If desired, the Select Feature Vertex SMS Select Vertex Tool.svg tool can be used to select and delete the new vertex.
5. Smooth arcs.
The variability or roughness of an arc can be reduced.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Smooth Arc(s)... command.
  2. Use the Smooth Arcs Tool to reduce the variability of the arc.
6. Prune arcs.
Concave sections of the arc can be removed.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Prune Arc(s)... command.
  2. Use the Prune Arcs dialog to remove concave sections.
7. Extend/trim arcs.
Extend or shorten an arc to match an existing arc's length.
  1. Using the Select Feature Arc SMS Select Arc Tool.svg tool, select two intersecting arcs.
  2. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Extend/Trim Arc... command.
  3. Use the Trim/Extend Arc dialog to select the target arc and source arc.
2. Build polygons.
Polygons are not created automatically when arcs are enclosed. To create polygons:
  1. Use the Feature Objects | Build Polygons command.
3. Assign Sediment Volume Management attributes to polygons.
  1. Use the Select Feature Polygon SMS Select Polygon Tool.svg tool to select a feature object polygon in the Sediment Volume Management coverage.
  2. Right-click on the selected polygon and use the Sediment Properties... command.
  3. Enter the desired attributes in the Sediment Volume Management dialog.
4. Use the Sediment Volume Management tool.
  1. Right-click on the Sediment Volume Management coverage and use the Sediment Volume Management command.
  2. In the Sediment Volume Management dialog, select a source geometry and a maximum slope. The table under Computation allows for adjusting the already-established sediment properties as desired.
  3. Click Compute to run the Sediment Volume Management tool.
  4. Review the results in the Computation table. Viewing many of the results might require scrolling to the right.
  5. Adjust the computation and run again as desired.

Saving and Importing a Profile Plot

1. Save a plot file in SMS.
There are two ways to save a plot file in SMS:
1. Save the whole project with the plot dialog open.
  1. With the plot dialog open, use the Save Save Macro.svg or the File|Save As... command.
  2. If this version of the project is opened again, the plot dialog will open with it.
2. Save the plot separately.
A separate plot file can be created that can be imported into any project with the same mesh.
  1. Make sure that the desired dataset is selected and therefore represented in the plot dialog.
  2. With the plot open, use the File|Save As... command to open the Save As dialog.
  3. Name the file and select "Plot File (*.plt)" next to Save as type.
  4. Save the file.
2. Import the plot file.
1. Open a project file saved with a plot file
  1. Use the File|Open command to open the project with the saved plot file in it.
  2. The plot will appear with the project as you open it.
2. Import a plot file saved separately
If a plot file has been saved separately, it can be imported into another project with the same mesh and datasets with the same name. A profile plot will also require an observation coverage with the same name. The data in the plot will represent the conditions in that project. To import it:
  1. Ensure that the open project has all required components to support the plot as described above.
  2. Use the File|Open command to open the Open dialog and navigate to where the plot file is saved.
  3. Open and review the plot.

For creating the profile plot dialog, see the "Observations Workflow".

Plot Data

1. Create a plot data coverage.
Create a new coverage with the "Plot Data" type. This coverage type is used in conjunction with the observation coverage to show where a structure will appear on a profile plot created with data from the observation coverage.
  1. Select Map Data in the Project Explorer and use the New Coverage right-click command.
  2. Use the New Coverage dialog to create a new coverage by selecting the desired coverage type, and naming the coverage.
2. Create polygons in the plot data coverage.
It is important that they overlap with observations arcs from the observation coverage.
1. Create enclosed arcs for polygon area.
1. Create feature arcs, nodes and vertices.
In the Map module, create feature objects in the active coverage.
  1. Use the Create Feature Arc SMS Create Arc Tool.svg tool to create arcs in the map coverage.
  2. Begin creating a new arc by clicking in the Graphics Window at either arc end. If clicking on an existing feature node, vertex or arc, the new arc will snap to that object.
  3. Double-click or press the Enter key to terminate the arc.
  4. Use the Create Feature Node Create Points Tool.svg tool to create additional nodes alone or to split arcs.
2. Modify arcs.
Feature arcs often need to be edited after initial creation.
1. Create additional vertices on arcs.
  1. Use the Create Feature Vertex SMS Create Vertex Tool.svg tool to add vertices along arcs.
2. Refine the arc shape.
  1. Use the Select Feature Vertex SMS Select Vertex Tool.svg tool and the Select Feature Node SMS Select Node Tool.svg tool to move/edit existing arcs and refine the shape by dragging the nodes/vertices.
  2. Use the Select Feature Arc SMS Select Arc Tool.svg tool to move entire arcs .
3. Split arcs.
An existing arc can be split by:
1. Converting a vertex to a node.
  1. Use the Select Feature Vertex SMS Select Vertex Tool.svg tool and right-click on a vertex along an arc.
  2. Select the Convert to Node command to split the arc into two arcs.
2. Add a node the arc.
  1. Use the Create Feature Node Create Points Tool.svg tool to add a node on an arc in order to split it into two arcs.
3. Add a new connecting arc.
  1. Use the Create Feature Arc SMS Create Arc Tool.svg tool to start or end a new arc on an existing arc to split the existing arc into two arcs.
4. Use the Split Arcs Tool.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Split Arc(s)... command.
  2. Use the Split Arcs Tool to divide arcs.
5. Split overlapping arcs using the Clean Options dialog.
  1. Select overlapping arcs using the Select Feature Arc SMS Select Arc Tool.svg tool.
  2. Use the Feature Objects | Clean command to bring up the Clean Options dialog.
  3. Select the Intersect selected arcs option (for selected arcs) or Intersect arcs option (for all overlapping arcs) to split the arcs.
4. Merge arcs.
Two arcs that share an end node can be merged together.
  1. Select the shared node using the Select Feature Node SMS Select Node Tool.svg tool.
  2. Right-click on the node and select the Convert to Vertex command to merge the arcs.
  3. If desired, the Select Feature Vertex SMS Select Vertex Tool.svg tool can be used to select and delete the new vertex.
5. Smooth arcs.
The variability or roughness of an arc can be reduced.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Smooth Arc(s)... command.
  2. Use the Smooth Arcs Tool to reduce the variability of the arc.
6. Prune arcs.
Concave sections of the arc can be removed.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Prune Arc(s)... command.
  2. Use the Prune Arcs dialog to remove concave sections.
7. Extend/trim arcs.
Extend or shorten an arc to match an existing arc's length.
  1. Using the Select Feature Arc SMS Select Arc Tool.svg tool, select two intersecting arcs.
  2. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Extend/Trim Arc... command.
  3. Use the Trim/Extend Arc dialog to select the target arc and source arc.
2. Build polygons.
Polygons are not created automatically when arcs are enclosed. To create polygons:
  1. Use the Feature Objects | Build Polygons command.
3. Create an observation plot.
  1. Select Display | Plot Wizard to start the Plot Wizard.
  2. Select the "Observation Profile" option on the left and click Next.
  3. Select arcs, datasets, and time steps to be plotted.
  4. In the Show Intersections section of the Plot Wizard, select the boxes in the Plot Data row.
  5. Review plot window.

Raster to Flood Depth

1. Use raster to calculate flood depths.
This requires an elevations raster and a water surface elevation dataset.
  1. Right-click on the raster to be used for the flood depths and use the command Convert to|Flood Depths.
  2. Next to Geometry, select the desired geometry.
  3. Next to WSE dataset, selet the desired dataset.
  4. After the tool has finished processing, change the File name as desired in the Save As dialog.

Interpolating from Multiple Elevation Sources Workflow

1. Import elevation sources.
1. Import rasters.
Raster data is imported into the GIS module in SMS.
  1. Use the Open command to import raster data files such as DEMs, KMZ files, and gridded elevation formats.
  2. Files can also be imported with the "drag and drop" option.
2. Import other GIS data.
  1. Use the File | Open... command to import GIS data files such as Shapefiles, MIF/MID files, Lidar files, or raster files.
  2. Alternatively, drag and drop the file into the Graphics Window in SMS.
3. Import Scatter Data.
  1. Use File | Open... to open files with scatter data such as scatter point files, ASCII dataset files, binary dataset files, tabular data files, or XYZ files.
  2. Alternatively, drag and drop the file into the Graphics Window in SMS.
  3. Use the File Import Wizard to specify how to import the data.
4. Import Online Data.
1. Import static images.
  1. Use the File | Import from Web command.
  2. Select a location in the Virtual Map Locator.
  3. Set a projection for the project using the Display Projections dialog.
  4. Use the Data Service Options dialog to select a web service or catalog.
    • Use the Advanced options if needing to access a unique or unavailable data source.
  5. Save the data file and import the data into SMS.
2. Import dynamic images.
  1. Use the File | Add Online Maps command.
  2. Select a location in the Virtual Map Locator.
  3. Set a projection for the project using the Display Projections dialog.
  4. Use the Data Service Options dialog to select a web service or catalog.
  5. Save the data file and import the data into SMS.
2. Clean up rasters using the tools for rasters in the toolbox.
Possibly useful tools include Blend Raster to Edges and Clip Raster from Elevation.
3. Interpolate raster elevation to geometry to create new elevation dataset.
The Interpolate Priority Rasters tool allows for multiple rasters to be used when interpolating onto a geometry. To do so, follow these steps:
1. Use the Interpolate Priority Rasters tool to interpolate raster data onto the desired geometry.
  1. From the Toolbox, select Interpolate Priority Rasters
  2. Select the geometry to interpolate onto.
  3. Select the order of priority for the rasters that will be used for interpolation. The order determines which raster the program will look at first to interpolate data onto the geometry.
  4. Run the Interpolate Priority Rasters tool.
2. Review the data on the geometry.
  1. Turn off all rasters.
  2. Turn on the desired geometry.
  3. Adjust the Display Options Display Options Macro.svg.
4. Set the map elevation dataset to the newly created dataset.
  1. While in the appropriate module for the geometry, use the Data|Map elevation... command.
  2. Select the newly created dataset.
  3. Adjust the display as desired to review the change in mapped dataset.

Discarded workflow components

Set unassigned node values.
Depending on the rasters used, it's possible that some mesh nodes didn't get assigned elevation values. To assign them values, follow these steps:
  1. Right-click on the mesh in the Project Explorer and use the Mesh → 2D Scatter command.
  2. Select all desired scatter points. ??Include more information on how to do this?
  3. Delete the selected scatter points and use the Triangles|Triangulate command.
  4. After switching to the Mesh module, select all nodes with unassigned values in the grid.
  5. In the Graphics Window, use the Interpolate elevation right-click command.
  6. Set the Scatter Set To Interpolate From to the scatter set where the unassigned scatter points have just been removed and interpolate it to this scatter set.

Blend Raster Resolution.
Interpolating data from multiple elevation sources first requires blending the rasters involved. To do so, follow these steps:
  1. From the Toolbox, select Blend Raster to Edges.
  2. Set the Primary raster and the Secondary raster options with the rasters that are to be blended.
  3. Specify the distance over which the active edges of the primary raster will be blended into the secondary raster.
  4. Specify the name of the Output raster. This will be a separate raster created from the primary and secondary raster.
  5. Run the Blend Raster to Edges tool.
  6. Examine the newly created raster.

Clip rasters (optional??).
Trimming rasters ensures that no part of the raster is above surveyed elevations. To do so, follow these steps:
1. Clip raster to high resolution.
  1. From the Toolbox, select Clip Raster from Elevations.
  2. Specify the Raster to clip and the Elevation raster. Specify if the tool should clip elevations above or below the elevation raster.
  3. Set the name of the Output raster.
  4. Run the Clip Raster from Elevations tool.
  5. Examine the newly created raster.
2. Clip raster to lower resolution.
  1. From the Toolbox, select Clip Raster from Elevations.
  2. Specify the Raster to clip and the Elevation raster. Specify if the tool should clip elevations above or below the elevation raster.
  3. Set the name of the Output raster.
  4. Run the Clip Raster from Elevations tool.
  5. Examine the newly created raster.

This step assumes an already-created EWN Features coverage.
1. Create feature arcs, nodes and vertices.
In the Map module, create feature objects in the active coverage.
  1. Use the Create Feature Arc SMS Create Arc Tool.svg tool to create arcs in the map coverage.
  2. Begin creating a new arc by clicking in the Graphics Window at either arc end. If clicking on an existing feature node, vertex or arc, the new arc will snap to that object.
  3. Double-click or press the Enter key to terminate the arc.
  4. Use the Create Feature Node Create Points Tool.svg tool to create additional nodes alone or to split arcs.
2. Modify arcs.
Feature arcs often need to be edited after initial creation.
1. Create additional vertices on arcs.
  1. Use the Create Feature Vertex SMS Create Vertex Tool.svg tool to add vertices along arcs.
2. Refine the arc shape.
  1. Use the Select Feature Vertex SMS Select Vertex Tool.svg tool and the Select Feature Node SMS Select Node Tool.svg tool to move/edit existing arcs and refine the shape by dragging the nodes/vertices.
  2. Use the Select Feature Arc SMS Select Arc Tool.svg tool to move entire arcs .
3. Split arcs.
An existing arc can be split by:
1. Converting a vertex to a node.
  1. Use the Select Feature Vertex SMS Select Vertex Tool.svg tool and right-click on a vertex along an arc.
  2. Select the Convert to Node command to split the arc into two arcs.
2. Add a node the arc.
  1. Use the Create Feature Node Create Points Tool.svg tool to add a node on an arc in order to split it into two arcs.
3. Add a new connecting arc.
  1. Use the Create Feature Arc SMS Create Arc Tool.svg tool to start or end a new arc on an existing arc to split the existing arc into two arcs.
4. Use the Split Arcs Tool.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Split Arc(s)... command.
  2. Use the Split Arcs Tool to divide arcs.
5. Split overlapping arcs using the Clean Options dialog.
  1. Select overlapping arcs using the Select Feature Arc SMS Select Arc Tool.svg tool.
  2. Use the Feature Objects | Clean command to bring up the Clean Options dialog.
  3. Select the Intersect selected arcs option (for selected arcs) or Intersect arcs option (for all overlapping arcs) to split the arcs.
4. Merge arcs.
Two arcs that share an end node can be merged together.
  1. Select the shared node using the Select Feature Node SMS Select Node Tool.svg tool.
  2. Right-click on the node and select the Convert to Vertex command to merge the arcs.
  3. If desired, the Select Feature Vertex SMS Select Vertex Tool.svg tool can be used to select and delete the new vertex.
5. Smooth arcs.
The variability or roughness of an arc can be reduced.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Smooth Arc(s)... command.
  2. Use the Smooth Arcs Tool to reduce the variability of the arc.
6. Prune arcs.
Concave sections of the arc can be removed.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Prune Arc(s)... command.
  2. Use the Prune Arcs dialog to remove concave sections.
7. Extend/trim arcs.
Extend or shorten an arc to match an existing arc's length.
  1. Using the Select Feature Arc SMS Select Arc Tool.svg tool, select two intersecting arcs.
  2. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Extend/Trim Arc... command.
  3. Use the Trim/Extend Arc dialog to select the target arc and source arc.
3. Convert shapefile data to arc.
  1. Select a shapefile dataset in the GIS module and use the Convert | Shape→Feature Objects command.
  2. Use the GIS to Feature Objects Wizard to specify how the shapefile attribute will be converted.
4. Create offset arcs
  1. Select a shapefile dataset in the GIS module and use the Convert | Shape→Feature Objects command.
  2. Use the GIS to Feature Objects Wizard to specify how the shapefile attribute will be converted.

|}

2. Create polygon for levee.

1. Create polygon for levee.
1. Create enclosed arcs for polygon area.
1. Create feature arcs, nodes and vertices.
In the Map module, create feature objects in the active coverage.
  1. Use the Create Feature Arc SMS Create Arc Tool.svg tool to create arcs in the map coverage.
  2. Begin creating a new arc by clicking in the Graphics Window at either arc end. If clicking on an existing feature node, vertex or arc, the new arc will snap to that object.
  3. Double-click or press the Enter key to terminate the arc.
  4. Use the Create Feature Node Create Points Tool.svg tool to create additional nodes alone or to split arcs.
2. Modify arcs.
Feature arcs often need to be edited after initial creation.
1. Create additional vertices on arcs.
  1. Use the Create Feature Vertex SMS Create Vertex Tool.svg tool to add vertices along arcs.
2. Refine the arc shape.
  1. Use the Select Feature Vertex SMS Select Vertex Tool.svg tool and the Select Feature Node SMS Select Node Tool.svg tool to move/edit existing arcs and refine the shape by dragging the nodes/vertices.
  2. Use the Select Feature Arc SMS Select Arc Tool.svg tool to move entire arcs .
3. Split arcs.
An existing arc can be split by:
1. Converting a vertex to a node.
  1. Use the Select Feature Vertex SMS Select Vertex Tool.svg tool and right-click on a vertex along an arc.
  2. Select the Convert to Node command to split the arc into two arcs.
2. Add a node the arc.
  1. Use the Create Feature Node Create Points Tool.svg tool to add a node on an arc in order to split it into two arcs.
3. Add a new connecting arc.
  1. Use the Create Feature Arc SMS Create Arc Tool.svg tool to start or end a new arc on an existing arc to split the existing arc into two arcs.
4. Use the Split Arcs Tool.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Split Arc(s)... command.
  2. Use the Split Arcs Tool to divide arcs.
5. Split overlapping arcs using the Clean Options dialog.
  1. Select overlapping arcs using the Select Feature Arc SMS Select Arc Tool.svg tool.
  2. Use the Feature Objects | Clean command to bring up the Clean Options dialog.
  3. Select the Intersect selected arcs option (for selected arcs) or Intersect arcs option (for all overlapping arcs) to split the arcs.
4. Merge arcs.
Two arcs that share an end node can be merged together.
  1. Select the shared node using the Select Feature Node SMS Select Node Tool.svg tool.
  2. Right-click on the node and select the Convert to Vertex command to merge the arcs.
  3. If desired, the Select Feature Vertex SMS Select Vertex Tool.svg tool can be used to select and delete the new vertex.
5. Smooth arcs.
The variability or roughness of an arc can be reduced.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Smooth Arc(s)... command.
  2. Use the Smooth Arcs Tool to reduce the variability of the arc.
6. Prune arcs.
Concave sections of the arc can be removed.
  1. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Prune Arc(s)... command.
  2. Use the Prune Arcs dialog to remove concave sections.
7. Extend/trim arcs.
Extend or shorten an arc to match an existing arc's length.
  1. Using the Select Feature Arc SMS Select Arc Tool.svg tool, select two intersecting arcs.
  2. Right-click on an arc using the Select Feature Arc SMS Select Arc Tool.svg tool and select the Extend/Trim Arc... command.
  3. Use the Trim/Extend Arc dialog to select the target arc and source arc.
2. Build polygons.
Polygons are not created automatically when arcs are enclosed. To create polygons:
  1. Use the Feature Objects | Build Polygons command.
2. Assign polygon attributes.
  1. Using the Select Feature Polygons SMS Select Polygon Tool.svg tool, select a polygon then right-click and use the Assign EWN Attribute command.
  2. In the EWN Polygon Properties dialog, select the Classification option and assign the appropriate values for the remainder of the dialog.
  3. If desired, preview the feature by using the Preview tab.