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The WMS software development team is excited about the release of WMS 9.0! This page lists the exciting new features that have been added to WMS 9.0.
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The WMS software development team is excited about the release of WMS 9.1! This page lists the exciting new features that have been added to WMS 9.1.


== What's new in WMS 9.0 ==
== What's new in WMS 9.1 ==


----
=== Support of new GIS and CAD File Formats for Import and Export ===


[[Image:Interface1.PNG|thumb|400px|right|The GSSHA model is a 2D watershed model that includes 1D hydraulic modeling, groundwater modeling, and other advanced watershed modeling components.]]
==== Add GIS Data Command ====
 
[[Image:AddDataCommand.png]]
 
The '''Add GIS Data''' command in the ''Get Data'' toolbar allows a user to read many formats of vector and raster GIS data.  After reading the data, it can be viewed or converted to a format that can be used for hydrologic modeling in WMS.


=== Updated Interfaces ===
The NSS (National Streamflow Statistics) interface has been updated to use the latest NSS database.  The MODRAT interface has also been updated.  Renumbering has been improved in the MODRAT interface and several issues have been fixed.  Several new features and enhancements have been added to the GSSHA interface.  First, the storm and tile drain modeling capability of GSSHA has been improved by adding the capability to add multiple pipes in a "superlink", which represents a network of pipes in GSSHA.  The algorithm for determining embankments has also been reworked to make the algorithm more efficient and more accurate.  The GSSHA tutorials have also been updated and improved to include the latest enhancements in the GSSHA code.  Also, GSSHA itself has been reworked to make the program more stable.
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[[Image:HY12Interface.png|thumb|400px|right|The HY-12 model is a storm drain model developed by Aquaveo and the FHWA (US Federal Highway Administration).]]
==== Raster Display Options ====
[[Image:RasterDisplayAndElevationMenu.png|thumb|400px|right|There are various options to view and convert raster elevation data grids to data that can be used in WMS for hydrologic modeling.  There are also options for other types of raster data.]]
 
If there is raster elevation data read using the '''Add GIS Data''' command or if there is online data that contains raster elevations, there are various options for displaying hill shading on the raster data.  A user can also convert any raster elevation data to a DEM.


=== FHWA HY-12 Storm Drain Modeling ===
WMS now includes an interface to FHWA's HY-12 storm drain modeling program.  This interface allows you to create a storm drain layout and assign rational method computations, curbs and gutters, access holes, pipes, channels, and other storm drain network features to the storm drain layout.  Much of the data can be computed automatically using the interface, and other data values can be entered in the easy-to-use windows.  The other storm drain modeling interfaces, including the SWMM and xp-swmm interfaces, have also been upgraded to make your model easier to build and maintain.
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[[Image:OnlineImages.png|thumb|300px|right|The online image capabilities in WMS 9.0 allow you to view and use a map showing any part of the world with your data.]][[Image:Onlineimages14x9 1.PNG|thumb|400px|right|The online image capabilities in WMS 9.0 allow you to download and use georeferenced images for any part of the world with your data.]]
==== GIS Vector Data Conversions ====
:[[Image:VectorDataConvert.png]]
GIS Vector Data can be converted to a shapefile.  Once the GIS data is converted to a shapefile, it can be used in any of the hydrologic modeling computations for tasks like computing curve numbers and infiltration coefficients.


=== Online Image (Web Map Service) Capabilities ===
One of the most exciting new features in WMS is the Get Online Maps tool [[Image:GetOnlineMaps.png]] in the Get Data Toolbar [[Image:GetDataToolbar.png]]. This tool allows you to open a web map service  as an "online image" and use it as you would any other image in the WMS interface. Since the web can be a little slow, there is an option to convert the online image to a static (locally saved) image that is saved with your WMS project and that displays much faster than the online image.
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[[Image:WMS85WebServices.png|thumb|200px|right|Six new web service data sources are available in WMS 9.0. These services allow you to download data for many parts of the world.]]
==== Raster Data Conversions ====
 
:[[Image:RasterDataExport.png]]
 
Raster data with information about land use or soil type can be converted to a land use or soil type grid by right-clicking on the layer.  USGS NLCD and European CORINE Land use data can also be downloaded for anywhere in the United States and Europe using the '''Get Data''' tool.  More information about the new data sources available in WMS 9.1 can be viewed [[Import_from_Web|here]].
 
WMS DEMs can be exported to several digital elevation file formats, including the following:
 
* GeoTiff
* BIL
* ERDAS Imaging IMG
* Surfer ASCII Grid
* Surfer Binary Grid
* USGS ASCII DEM
* XYZ ASCII Grid
* ArcInfo ASCII Grid
* DXF 3D Point
* Float/Grid
* DTED
* MapInfo Grid
* GlobalMapper Grid
* Windsim GWS
 
All these files as well as many other formats can also be imported using the '''Add GIS Data''' button.


=== Improved Web Service Tools ===
Six new web services have been added to the list of web data that can be downloaded from the WMS Get Data Toolbar [[Image:GetDataToolbarWebServices.png]]. These web services include some that were previously available, such as United States National Elevation Datasets, as well as newly available datasets, such as the CORINE European land cover database, the NLCD US National Land Cover database, and the ASTER Worldwide Elevation Data database.  These new datasets are much faster than previously available datasets and include a progress bar so you can view the progress of your data download.
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[[Image:VectorImages.png|thumb|400px|right|You can read and display almost any commonly used vector data source as a vector image in WMS.]]
==== Vector/Shapefile Data Conversions ====
 
:[[Image:VectorDataExport.png|300 px]]


=== Support of New File Formats ===
Vector GIS data that is read into WMS can be converted to a shapefile and used in WMS or saved to one of the many other supported formats.  The supported formats include:  
We have added support for almost all the commonly used vector file formats in the new version of WMS.  Some vector files, such as DXF, DWG, and ESRI Shapefile format, still read the way they have always read into WMS.  But support for "Vector-based images" has been added to WMS that allows you to read any file that can be read using the Global Mapper software in WMS (A license to Global Mapper is not required).  For a complete listing of the vector formats supported in WMS, [http://www.globalmapper.com/product/formats_vector.htm visit the Global Mapper web site].  Right-clicking on a vector image allows you to export to one of many formats or convert linear data to feature objects or scattered data (XYZ).  The following formats can be exported using the right-click command:


* DXF Files (*.dxf)
* DXF Files (*.dxf)
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* CSV (Comma-separated value) Files (*.csv)
* CSV (Comma-separated value) Files (*.csv)
* [http://en.wikipedia.org/wiki/Scalable_Vector_Graphics SVG Files (*.svg)]
* [http://en.wikipedia.org/wiki/Scalable_Vector_Graphics SVG Files (*.svg)]
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==== GIS Module ====
All images, raster GIS data, and vector GIS data are now stored in the GIS module.  In the GIS module, a user can import, export, and convert GIS data to different formats.  A user can also map data in the GIS module to data in WMS that can be used to build the watershed models.
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==== TIN Elevations from LandXML Files ====
[[Image:LandXMLFile.png|thumb|400px|right|LandXML TIN imported into WMS.]]
WMS 9.1 allows the user to read LandXML files as a TIN.  This command to import LandXML files preserves the points and the triangle connections that were built in the CAD program that was used to generate the LandXML file.
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==== DGN, DWG, and other CAD File Support ====
WMS 9.1 supports most of the latest DGN, DWG, and DXF file formats through the [http://www.opendesign.com/the_oda_platform Teigha library].  Currently, WMS 9.1 uses version 3.05.01 of the Teigha library.
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=== Multiple DEMs ===
[[Image:MultipleDEMs.png]]
WMS 9.1 allows the user to read and manage multiple DEMs in the project explorer.  Each of these DEMs can have flow directions and accumulations for watershed delineation.  A user can clip and modify single DEMs or merge multiple DEMs from different sources into a single DEM.  A user can convert raster elevation data in the GIS module to DEMs.  These DEMs can be merged and exported to any of the raster elevation formats supported by WMS.
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=== Improved Web Service (Online Data) Tools ===
[[Image:OnlineDataTools.png]]
WMS 9.1 has three tools for obtaining online data: '''The Get Data''' tool, the '''Get Data From Map''' command, and the '''Get Online Maps''' command.  All of these tools can be used to obtain various types of raster data: Images, elevation data, land use data, vegetation data, and more.
==== Get Data ====
[[Image:VirtualEarth.png|thumb|400px|right|The Virtual Earth Map Locator window.]]
[[Image:GetDataDialog.png|thumb|400px|right|The Get Data dialog.]]
The '''Get Data''' tool and the '''Get Data From Map''' command work in much the same way.  The user needs to set the current projection before using either of these tools.  The difference is that with the '''Get Data''' tool, the user selects the area where data is desired from the WMS window.  With the '''Get Data From Map''' command, the user selects the area from the ''Virtual Earth Map Locator'' window.  This ''Virtual Earth'' window pops up after selecting the '''Get Data From Map''' command.  In either case, the user goes to the area of interested and WMS will bring up another window that allows the user to select the type of data to be downloaded.  With all the raster data sources, specify a resolution of the data to be downloaded and WMS will download the data.
Several new data sources have been added to the Get Data tools in WMS, including various sources for high-quality imagery.  Samples of many of the data sources are shown in the new ''Get Data'' dialog.
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==== Get Online Maps ====
The '''Get Online Maps''' command allows a user to define online data sources to be added to the display.  This command was introduced in WMS 9.0, and has been improved in WMS 9.1.  WMS 9.1 launches a separate process to download the online data when it is downloading so the user no longer needs to wait for the data to download before working.  WMS 9.1 also has tools to convert online data to static data and to convert it to various formats that can be used for watershed modeling.
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=== Texture Mapping on TINs ===
[[Image:TextureMapping.png|thumb|400px|right|A delineated watershed with a texture mapped image.]]
The capability to texture map images to TINs has been added.  This capability allows a user to read or download an image using the Get Data tools and then texture map the image on a TIN.  This gives the option to create a nice image of the watershed model and to visualize the locations and terrain surrounding hydraulic structures in the watershed.  A user can also use the texture mapping capabilities to view flood locations and contours from a HEC-RAS analysis.
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=== Model Improvements ===
==== GSSHA Snowmelt ====
[[Image:GSSHASnowmelt.png|thumb|400px|right|GSSHA Snowmelt Options Dialog.]]
Several options to support the GSSHA snowmelt models have been added to the WMS interface.  When running long-term GSSHA simulations, the GSSHA snowmelt parameters can be modified in the easy-to-use WMS interface.  WMS 9.1 also has options to define raster HMET files for use in GSSHA long term simulations.
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==== HEC-RAS Water Surface Elevations ====
If there is an existing HEC-RAS model and the user wants to bring it into WMS, there has not previously been a way to read the water surface elevations from the HEC-RAS solution.  Now if the user exports the water surface elevations with the GIS file that's exported from HEC-RAS, WMS reads these water elevations.
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==== SWMM Attributes ====
[[Image:SWMMAttributes.png|thumb|400px|right|A user can map attributes from shapefiles to SWMM models in WMS 9.1.]]
If the correct attributes have been assigned to arcs in a shapefile, WMS now imports storm drain attributes such as names, shapes, diameters, lengths, and upstream and downstream invert elevations to the SWMM model in WMS.  This makes the SWMM modeling easier because the user doesn't have to re-enter the pipe attributes that are already defined in a shapefile.
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[[Image:HY873.png|thumb|400px|right|HY-8 7.3 is supported in the latest WMS.]]
== Release Notes ==


=== FHWA HY-8 7.3 and Hydraulic Toolbox 3.0 Support ===
To view the list of bugs fixed in WMS 9.1, visit the [[WMS:Release Notes_WMS|WMS release notes page]].
The FHWA's HY-8 7.3, which includes many new culvert modeling capabilities, is supported in the new version of WMS. The new version of the FHWA's Hydraulic Toolbox (3.0) is also supported with the new version of WMS.  The new tools in HY-8 7.3 include modeling of hydraulic jump profiles, broken back culverts (culverts with a change in slope), and horizontal and adverse slopes in culverts.  Documentation showing the capabilities included in the latest version of HY-8 is included on the [[WMS:HY-8_Limitations|HY-8 wiki]].  The newest version of the hydraulic toolbox includes tools for culvert assessment and for determining a riprap or streambed gradation curve using a digital image.


== Bug fixes ==
{{WMSMain}}


To view the list of bugs fixed in WMS 9.0, visit the [[WMS:Bugfixes_WMS|WMS bugfix page]].
[[Category:What's New]]

Latest revision as of 23:36, 9 January 2023


The WMS software development team is excited about the release of WMS 9.1! This page lists the exciting new features that have been added to WMS 9.1.

What's new in WMS 9.1

Support of new GIS and CAD File Formats for Import and Export

Add GIS Data Command

AddDataCommand.png

The Add GIS Data command in the Get Data toolbar allows a user to read many formats of vector and raster GIS data. After reading the data, it can be viewed or converted to a format that can be used for hydrologic modeling in WMS.


Raster Display Options

There are various options to view and convert raster elevation data grids to data that can be used in WMS for hydrologic modeling. There are also options for other types of raster data.

If there is raster elevation data read using the Add GIS Data command or if there is online data that contains raster elevations, there are various options for displaying hill shading on the raster data. A user can also convert any raster elevation data to a DEM.


GIS Vector Data Conversions

VectorDataConvert.png

GIS Vector Data can be converted to a shapefile. Once the GIS data is converted to a shapefile, it can be used in any of the hydrologic modeling computations for tasks like computing curve numbers and infiltration coefficients.


Raster Data Conversions

RasterDataExport.png

Raster data with information about land use or soil type can be converted to a land use or soil type grid by right-clicking on the layer. USGS NLCD and European CORINE Land use data can also be downloaded for anywhere in the United States and Europe using the Get Data tool. More information about the new data sources available in WMS 9.1 can be viewed here.

WMS DEMs can be exported to several digital elevation file formats, including the following:

  • GeoTiff
  • BIL
  • ERDAS Imaging IMG
  • Surfer ASCII Grid
  • Surfer Binary Grid
  • USGS ASCII DEM
  • XYZ ASCII Grid
  • ArcInfo ASCII Grid
  • DXF 3D Point
  • Float/Grid
  • DTED
  • MapInfo Grid
  • GlobalMapper Grid
  • Windsim GWS

All these files as well as many other formats can also be imported using the Add GIS Data button.


Vector/Shapefile Data Conversions

VectorDataExport.png

Vector GIS data that is read into WMS can be converted to a shapefile and used in WMS or saved to one of the many other supported formats. The supported formats include:

  • DXF Files (*.dxf)
  • Area Shapefiles (*.shp)
  • Line Shapefiles (*.shp)
  • Point Shapefiles (*.shp)
  • Google Earth KMZ Files (*.kmz)
  • MapInfo MIF/MID Files (*.mif)
  • MapInfo TAB/MAP Files (*.map)
  • Simple ASCII Text Files (*.txt)
  • CSV (Comma-separated value) Files (*.csv)
  • SVG Files (*.svg)


GIS Module

All images, raster GIS data, and vector GIS data are now stored in the GIS module. In the GIS module, a user can import, export, and convert GIS data to different formats. A user can also map data in the GIS module to data in WMS that can be used to build the watershed models.


TIN Elevations from LandXML Files

LandXML TIN imported into WMS.

WMS 9.1 allows the user to read LandXML files as a TIN. This command to import LandXML files preserves the points and the triangle connections that were built in the CAD program that was used to generate the LandXML file.


DGN, DWG, and other CAD File Support

WMS 9.1 supports most of the latest DGN, DWG, and DXF file formats through the Teigha library. Currently, WMS 9.1 uses version 3.05.01 of the Teigha library.


Multiple DEMs

MultipleDEMs.png

WMS 9.1 allows the user to read and manage multiple DEMs in the project explorer. Each of these DEMs can have flow directions and accumulations for watershed delineation. A user can clip and modify single DEMs or merge multiple DEMs from different sources into a single DEM. A user can convert raster elevation data in the GIS module to DEMs. These DEMs can be merged and exported to any of the raster elevation formats supported by WMS.


Improved Web Service (Online Data) Tools

OnlineDataTools.png

WMS 9.1 has three tools for obtaining online data: The Get Data tool, the Get Data From Map command, and the Get Online Maps command. All of these tools can be used to obtain various types of raster data: Images, elevation data, land use data, vegetation data, and more.

Get Data

The Virtual Earth Map Locator window.
The Get Data dialog.

The Get Data tool and the Get Data From Map command work in much the same way. The user needs to set the current projection before using either of these tools. The difference is that with the Get Data tool, the user selects the area where data is desired from the WMS window. With the Get Data From Map command, the user selects the area from the Virtual Earth Map Locator window. This Virtual Earth window pops up after selecting the Get Data From Map command. In either case, the user goes to the area of interested and WMS will bring up another window that allows the user to select the type of data to be downloaded. With all the raster data sources, specify a resolution of the data to be downloaded and WMS will download the data.

Several new data sources have been added to the Get Data tools in WMS, including various sources for high-quality imagery. Samples of many of the data sources are shown in the new Get Data dialog.


Get Online Maps

The Get Online Maps command allows a user to define online data sources to be added to the display. This command was introduced in WMS 9.0, and has been improved in WMS 9.1. WMS 9.1 launches a separate process to download the online data when it is downloading so the user no longer needs to wait for the data to download before working. WMS 9.1 also has tools to convert online data to static data and to convert it to various formats that can be used for watershed modeling.


Texture Mapping on TINs

A delineated watershed with a texture mapped image.

The capability to texture map images to TINs has been added. This capability allows a user to read or download an image using the Get Data tools and then texture map the image on a TIN. This gives the option to create a nice image of the watershed model and to visualize the locations and terrain surrounding hydraulic structures in the watershed. A user can also use the texture mapping capabilities to view flood locations and contours from a HEC-RAS analysis.


Model Improvements

GSSHA Snowmelt

GSSHA Snowmelt Options Dialog.

Several options to support the GSSHA snowmelt models have been added to the WMS interface. When running long-term GSSHA simulations, the GSSHA snowmelt parameters can be modified in the easy-to-use WMS interface. WMS 9.1 also has options to define raster HMET files for use in GSSHA long term simulations.


HEC-RAS Water Surface Elevations

If there is an existing HEC-RAS model and the user wants to bring it into WMS, there has not previously been a way to read the water surface elevations from the HEC-RAS solution. Now if the user exports the water surface elevations with the GIS file that's exported from HEC-RAS, WMS reads these water elevations.


SWMM Attributes

A user can map attributes from shapefiles to SWMM models in WMS 9.1.

If the correct attributes have been assigned to arcs in a shapefile, WMS now imports storm drain attributes such as names, shapes, diameters, lengths, and upstream and downstream invert elevations to the SWMM model in WMS. This makes the SWMM modeling easier because the user doesn't have to re-enter the pipe attributes that are already defined in a shapefile.


Release Notes

To view the list of bugs fixed in WMS 9.1, visit the WMS release notes page.