WMS:Louisiana DOTD Modeling Overview: Difference between revisions
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{{Unsupported}} [[Category:GSDA Archived]] | |||
==Louisiana Department of Transportation and Development Data Sources for use in WMS== | ==Louisiana Department of Transportation and Development Data Sources for use in WMS== | ||
===Data Sources=== | ===Data Sources=== | ||
Line 10: | Line 12: | ||
LandUse: [http://www.webgis.com/ http://www.webgis.com/] | LandUse: [http://www.webgis.com/ http://www.webgis.com/] | ||
Soils: [http:// | Soils: [http://websoilsurvey.nrcs.usda.gov/ http://websoilsurvey.nrcs.usda.gov/] | ||
Aquaveo: [http://www.aquaveo.com/ http://www.aquaveo.com/] | Aquaveo: [http://www.aquaveo.com/ http://www.aquaveo.com/] | ||
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# The image is now in WMS. Repeat for other Quads as necessary. | # The image is now in WMS. Repeat for other Quads as necessary. | ||
==Louisiana DOTD Models Using the SCS Method== | ==Louisiana DOTD Models Using the NRCS (SCS) Method== | ||
===Creating an SCS Project=== | ===Creating an NRCS (SCS) Project=== | ||
# Using the ''WMS Wizard'' set the project coordinate system to UTM, NAD83, Zone 15 | # Using the ''WMS Wizard'' set the project coordinate system to UTM, NAD83, Zone 15 | ||
# With the ''Microsoft Virtual Earth Utility'' identify the study area – make sure it is “bigger” than the study area | # With the ''Microsoft Virtual Earth Utility'' identify the study area – make sure it is “bigger” than the study area | ||
# With ''Web Services'' download the DEM ( | # With ''Web Services'' download the DEM (10 meter cell size recommended) and Topo map (aerial photograph too if desired) | ||
## | ##Try to get the land use and soils data from the web services as well. They are currently on the Aquaveo server and there is not an intent to remove them but not a guarantee the will stay. | ||
## | ## Download the land use file(s) from http://www.webgis.com/ | ||
## | ## Ask for the Ssurgo data and get an email with an ftp from: http://websoilsurvey.nrcs.usda.gov/ | ||
## Read these shapefiles into WMS and be sure they are converted to the UTM, NAD83, Zone 15 coordinate system | ## Read these shapefiles into WMS and be sure they are converted to the UTM, NAD83, Zone 15 coordinate system | ||
## If there are problems with the topo map, go | ## If there are problems with the topo map, go to http://atlas.lsu.edu/ and navigate to download the DRG Files | ||
## For the DEM, go to http://nationalmap.gov/viewer.html/ | ## For the DEM, go to http://nationalmap.gov/viewer.html/ | ||
# Delineate the watershed. | # Delineate the watershed. | ||
## Turning on the ''Create TC Coverage'' is optional | ## Turning on the ''Create TC Coverage'' is optional | ||
# Select the HEC-HMS model (this won’t be used but it will line up best with what to do for the | # Select the HEC-HMS model (this won’t be used but it will line up best with what to do for the NRCS method). | ||
# In the ''Define Land Use'' option | # In the ''Define Land Use'' option | ||
## Join the Ssurgo attributes tables by | ## Join the Ssurgo attributes tables by choosing the ''Join NRCS Data'' option | ||
## Back in the wizard Create the Land Use and Soils coverage | ## Back in the wizard Create the Land Use and Soils coverage | ||
# Under ''Hydrologic Computations'' in the Wizard. | # Under ''Hydrologic Computations'' in the Wizard. | ||
## Compute GIS Attributes to determine the composite CN | ## Compute GIS Attributes to determine the composite CN | ||
## In this | ## In this load the standard [[WMS:LADOTD SCS table|LADOTD NRCS table]] (the current definition for Residential is for ¼ acre lots, some may want to adjust this value or any other as appropriate). This table can be downloaded [[media:LADOTDCNTable.txt | here]]. | ||
## Compute Basin Data and select the '''Lag Time – SCS''' equation. | ## Compute Basin Data and select the '''Lag Time – SCS''' equation. | ||
# | # Set up the Job Control and Precipitation data for an HMS model if desired, but it is not necessary. | ||
# Clean up the model. | # Clean up the model. | ||
## Turn off the ''Model Checker'' | ## Turn off the ''Model Checker'' | ||
Line 59: | Line 61: | ||
# Go into the ''Display Options'' under ''Drainage'' and turn on the ''Maximum Flow Distance and Maximum Flow Slope''. | # Go into the ''Display Options'' under ''Drainage'' and turn on the ''Maximum Flow Distance and Maximum Flow Slope''. | ||
# Save the WMS Project | # Save the WMS Project | ||
# | # Use [http://hdsc.nws.noaa.gov/hdsc/pfds/ NOAA Atlas 14] or the LADOTD Hydraulics manual Figure 3.4-2 and Table 3.4-2 to get the desired rainfall depth. | ||
# Run the model with the standard LADOTD program. | # Run the model with the standard LADOTD program. | ||
## http:// | ## http://wwwsp.dotd.la.gov/Inside_LaDOTD/Divisions/Engineering/Public_Works/Hydraulics/Pages/Hydraulics_Software.aspx | ||
===LADOTD | ===LADOTD NRCS table=== | ||
<pre> | <pre> | ||
11, "Residential", 61.000000, 75.000000, 83.000000, 87.000000, 0.000000 | 11, "Residential", 61.000000, 75.000000, 83.000000, 87.000000, 0.000000 | ||
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# With the ''Microsoft Virtual Earth Utility'' identify the study area – make sure it is "bigger" than the study area | # With the ''Microsoft Virtual Earth Utility'' identify the study area – make sure it is "bigger" than the study area | ||
# With ''Web Services'' download the DEM (1 arc Second recommended for larger areas) and Topo map (aerial photograph too if desired) | # With ''Web Services'' download the DEM (1 arc Second recommended for larger areas) and Topo map (aerial photograph too if desired) | ||
## If there are problems with the topo map, go | ## If there are problems with the topo map, go to http://atlas.lsu.edu/ and navigate to download the DRG Files | ||
## For the DEM, go to http://nationalmap.gov/viewer.html | ## For the DEM, go to http://nationalmap.gov/viewer.html | ||
## The | ## The Land Use and Soils files shouldn't be necessary for these projects because they do not require to compute CN, but if wanting to run HMS or something else then refer to the SCS document to process the land use and soils files | ||
# Delineate the watershed | # Delineate the watershed | ||
## Before delineating turn on the ''Create TC Coverage'' option | ## Before delineating turn on the ''Create TC Coverage'' option | ||
Line 121: | Line 123: | ||
# Use the Maximum Flow Slope *5280 to get feet/mile | # Use the Maximum Flow Slope *5280 to get feet/mile | ||
# Save the WMS Project. | # Save the WMS Project. | ||
# Open the [ | # Open the [[media:LouisianaRainfall.zip | Louisiana Mean Annual Rainfall .wms file]] file and determine the Mean Annual Rainfall. | ||
# Run the model with the standard LADOTD program. | # Run the model with the standard LADOTD program. | ||
## http:// | ## http://wwwsp.dotd.la.gov/Inside_LaDOTD/Divisions/Engineering/Public_Works/Hydraulics/Pages/Hydraulics_Software.aspx | ||
{{WMSMain}} | {{WMSMain}} | ||
[[Category:WMS Modeling|L]] | [[Category:WMS Modeling|L]] | ||
[[Category:External Links]] | [[Category:External Links]] |
Latest revision as of 22:45, 22 July 2020
This contains information for a feature that is not currently supported. Technical support is not available for projects using this feature. |
Louisiana Department of Transportation and Development Data Sources for use in WMS
Data Sources
The primary gateway to accessing data for WMS can be found at: http://www.xmswiki.com/ and then go to the GeoSpatial Data Acquisition Page http://www.xmswiki.com/xms/GSDA:GSDA Some of the primary locations there are:
DEMS: http://nationalmap.gov/viewer.html
LandUse: http://www.webgis.com/
Soils: http://websoilsurvey.nrcs.usda.gov/
Aquaveo: http://www.aquaveo.com/
The LSU site can also be helpful, especially for DRG Images of USGS Maps. To download and use these maps:
- Go the site: http://atlas.lsu.edu/
- Choose Download Data
- Choose the map scale such as http://atlas.lsu.edu/q24k/ Scanned Topographic Maps
- Use the map to navigate to the area to be utilized.
- Select the map
- Choose the Download button
- Unzip the map on the computer
- Open WMS
- Right Click in the Project Explorer of WMS
- Choose Preferences
- Change the Image options to Always Convert Tiff and to Save the new JPG in the current directory.
- Open the image.
- The image is now in WMS. Repeat for other Quads as necessary.
Louisiana DOTD Models Using the NRCS (SCS) Method
Creating an NRCS (SCS) Project
- Using the WMS Wizard set the project coordinate system to UTM, NAD83, Zone 15
- With the Microsoft Virtual Earth Utility identify the study area – make sure it is “bigger” than the study area
- With Web Services download the DEM (10 meter cell size recommended) and Topo map (aerial photograph too if desired)
- Try to get the land use and soils data from the web services as well. They are currently on the Aquaveo server and there is not an intent to remove them but not a guarantee the will stay.
- Download the land use file(s) from http://www.webgis.com/
- Ask for the Ssurgo data and get an email with an ftp from: http://websoilsurvey.nrcs.usda.gov/
- Read these shapefiles into WMS and be sure they are converted to the UTM, NAD83, Zone 15 coordinate system
- If there are problems with the topo map, go to http://atlas.lsu.edu/ and navigate to download the DRG Files
- For the DEM, go to http://nationalmap.gov/viewer.html/
- Delineate the watershed.
- Turning on the Create TC Coverage is optional
- Select the HEC-HMS model (this won’t be used but it will line up best with what to do for the NRCS method).
- In the Define Land Use option
- Join the Ssurgo attributes tables by choosing the Join NRCS Data option
- Back in the wizard Create the Land Use and Soils coverage
- Under Hydrologic Computations in the Wizard.
- Compute GIS Attributes to determine the composite CN
- In this load the standard LADOTD NRCS table (the current definition for Residential is for ¼ acre lots, some may want to adjust this value or any other as appropriate). This table can be downloaded here.
- Compute Basin Data and select the Lag Time – SCS equation.
- Set up the Job Control and Precipitation data for an HMS model if desired, but it is not necessary.
- Clean up the model.
- Turn off the Model Checker
- Exit the wizard and identify the data necessary to run the model.
- Go into the Display Options under Drainage and turn on the Maximum Flow Distance and Maximum Flow Slope.
- Save the WMS Project
- Use NOAA Atlas 14 or the LADOTD Hydraulics manual Figure 3.4-2 and Table 3.4-2 to get the desired rainfall depth.
- Run the model with the standard LADOTD program.
LADOTD NRCS table
11, "Residential", 61.000000, 75.000000, 83.000000, 87.000000, 0.000000 12, "Commercial", 89.000000, 92.000000, 94.000000, 95.000000, 0.000000 13, "Industrial", 81.000000, 88.000000, 91.000000, 93.000000, 0.000000 14, "Roads", 95.000000, 95.000000, 95.000000, 95.000000, 0.000000 15, "Industrial and Commercial Complexes", 85, 90, 92, 94, 0 16, "Mixed Urban or Built-up Land", 81, 88, 91, 93, 0 17, "Other Built-up Land", 81, 88, 91, 93, 0 21, "Cropland", 54.000000, 70.000000, 80.000000, 84.000000, 0.000000 22, "Orchards, Groves, Vineyards, Nurseries, and Ornamental Horticultural Areas", 67, 76, 83, 86, 0 23, "Confined Feeding Operations", 67, 76, 83, 86, 0 24, "Other Agricultural Lands", 67, 76, 83, 86, 0 31, "Herbaceous Rangeland", 54, 70, 80, 84, 0 32, "Shrub and Brush Rangeland", 54, 70, 80, 84, 0 33, "Mixed Rangeland", 54, 70, 80, 84, 0 41, "Forest", 36.000000, 61.000000, 74.000000, 80.000000, 0.000000 42, "Evergreen Forest Land", 36, 61, 74, 80, 0 43, "Mixed Forest Land", 36, 61, 74, 80, 0 51, "Streams and Canals", 100.000000, 100.000000, 100.000000, 100.000000, 0.000000 52, "Lakes", 100, 100, 100, 100, 0 53, "Reservoirs", 100.000000, 100.000000, 100.000000, 100.000000, 0.000000 54, "Bays and Estuaries", 100, 100, 100, 100, 0 61, "Forested Wetland", 36.000000, 61.000000, 74.000000, 80.000000, 0.000000 62, "Nonforested Wetland", 36.000000, 61.000000, 74.000000, 80.000000, 0.000000 71, "Dry Salt Flats", 50, 60, 70, 80, 0 72, "Beaches", 30, 38, 45, 50, 0 73, "Sandy Areas other than Beaches",, 30, 38, 45, 50, 0 74, "Bare Exposed Rock", 95, 96, 97, 98, 0 75, "Strip Mine Quarries, and Gravel Pits", 40, 50, 60, 70, 0 76, "Transitional Areas", 36.000000, 61.000000, 74.000000, 80.000000, 0.000000 77, "Mixed Barren Land", 36, 61, 74, 80, 0 81, "Shrub and Brush Tundra", 60, 70, 80, 90, 0 82, "Herbaceous Tundra", 60, 70, 80, 90, 0 83, "Bare Ground Tundra", 60, 70, 80, 90, 0 84, "Wet Tundra", 60, 70, 80, 90, 0 84, "Mixed Tundra", 60, 70, 80, 90, 0 91, "Perennial Snowfields", 80, 84, 88, 92, 0 92, "Glaciers", 80, 84, 88, 92, 0
Louisiana DOTD Models Using the USGS Method
USGS Project
- Using the WMS Wizard set the project coordinate system to UTM, NAD83, Zone 15
- With the Microsoft Virtual Earth Utility identify the study area – make sure it is "bigger" than the study area
- With Web Services download the DEM (1 arc Second recommended for larger areas) and Topo map (aerial photograph too if desired)
- If there are problems with the topo map, go to http://atlas.lsu.edu/ and navigate to download the DRG Files
- For the DEM, go to http://nationalmap.gov/viewer.html
- The Land Use and Soils files shouldn't be necessary for these projects because they do not require to compute CN, but if wanting to run HMS or something else then refer to the SCS document to process the land use and soils files
- Delineate the watershed
- Before delineating turn on the Create TC Coverage option
- Set the Accumulation Threshold to 1-3 sq. miles
- Clean up the model
- Turn off the Model Checker if desired
- Exit the wizard and identify the data necessary to run the model.
- Use the Maximum Flow Slope *5280 to get feet/mile
- Save the WMS Project.
- Open the Louisiana Mean Annual Rainfall .wms file file and determine the Mean Annual Rainfall.
- Run the model with the standard LADOTD program.
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