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Data FAQ

Q. What is Fast Rendering and when should I use it?

A. By default, McIDAS-V will try to adjust the data layer (images, contours, etc.) renderings to account for projection seams. This is computationally intensive in some cases and slows down the display of data. If you change your User Preferences setting to Use fast rendering, McIDAS-V will not try to account for the projection seams. You can turn on/off Fast Rendering for individual displays in their Properties dialogs.

Q. What is the difference between the Standard Atmosphere and Vis5D pressure to height conversion?

A. McIDAS-V displays pressure surfaces by converting the pressure to a height in some reference system. There are two reference systems that come standard with McIDAS-V - the U.S. Standard Atmosphere and Vis5D. The U.S. Standard Atmosphere only computes has conversions for pressures up to about 80 km. The Vis5D coordinate system uses a logarithmic conversion:
      P = 1012.5 * e^( H / -7.2 )        (^ denotes exponentiation)
      H = -7.2 * Ln( P / 1012.5 )        (Ln denotes natural log)
so it can be used for heights above 80 km.

Q. Why do I get an error when I try to load radar data that I downloaded from NCDC?

A. There are few common problems that can cause this:
  1. The files are in a compressed tar file - Typically, when you download Level II data from NCDC, the files are in a compressed TAR file which holds the individual volume scans. You need to extract the volumes from the TAR file with utilities like tar, gunzip, WinZip into a directory.
  2. You are using the Files chooser - You should load the radar data using the Radar->Level II->Local file chooser in the Data Sources tab of the Data Explorer, not the General->Files chooser. In some cases, the files do not have any location information in them. The Level II data chooser allows you to associate a station location with the data file, using the directory name as a first guess.
  3. You are trying to load Level III raster products - McIDAS-V only handles the Level III data that is stored in radial format (Base Reflectivity, Storm Relative Velocity, Base Velocity, 1 and 3 hour precipitation, Echo Tops).

Q. When I try to read in my GRIB data, why do I get an ucar.grib.NotSupportedException?

A. For McIDAS-V to read in GRIB data, it needs access to lookup tables for decoding the information in the data. McIDAS-V comes pre-configured with most of the commonly used tables from NCEP, FNMOC, etc, but some GRIB data from regional centers may use tables other than the defaults. If McIDAS-V does not have the necessary table, you will get the NotSupportedException. You can add in new tables by following the instructions in the User's Guide section on Adding in new GRIB tables.

Q. How are grids resampled in McIDAS-V?

A. McIDAS-V uses two methods for resampling data - weighted average and nearest neighbor. These are the default sampling modes for VisAD, which McIDAS-V is based on. For any grid, the samples are organized in a topology, which may be triangles (Irregular2D), squares (Gridded2D), tetrahedra (Irregular3D) or cubes (Gridded3D). For target points the system finds which topology element contains the target. For nearest neighbor, it gets the values at the vertex of that containing topology element closest to the target point. For weighted average, it computes a weighted average of all vertices of that containing topology element, where the weights are bilinear in 2D and trilinear in 3D. (source: Bill Hibbard, SSEC)

Q. Why can't I create a time series from single time grid files?

A. If you receive an error message similar to the following:

      An error has occurred:
      Creating display: Color-Shaded Plan View
      org.python.core.PyException
      
      visad.UnitException: visad.UnitException: Set: units dimension 1 does
        not match Domain dimension 2

the files may not have a "time" dimension defined in them. It is recommended that you use the NetCDF Markup Language (NcML) to aggregate the files. See http://www.unidata.ucar.edu/software/netcdf/ncml/v2.2/Aggregation.html for more information on aggregating files.

Q. How do I create a time series from individual grid files with different time steps?

A. If you have individual files of gridded data for multiple time steps that you want to display as a single layer to utilize the Time Animation Widget, there are two methods of doing this. First, in the Data Sources tab of the Data Explorer, navigate to the Gridded Data->Local or the General Files/Directories chooser. Select the Aggregate Grids by Time Data Type, navigate to the directory where your files are stored, and use Shift+click to select the files you wish to include in your layer. In the Field Selector, you will see that all of the times you selected for the data are grouped together. You can select your display type, create the display, and all of the data times will be loaded in as one layer and you can animate through them.

Alternatively, you can add all of the files individually through the Gridded Data->Local or General->Files/Directories chooser (without the Aggregate Grids by Time Data Type) and use the Make a time sequence from single time grids/images formula. This is a native formula of McIDAS-V that can be found under the Miscellaneous tree of formulas in the Field Selector. Using this formula, you can select all of the individual files, and McIDAS-V will add all of them to the Main Display window as a single layer you can animate through time.

Q. What are the wind speed thresholds for different wind barbs?

A. Below is a table that shows different wind speed thresholds when it comes to plotting wind barbs of gridded or point data.  In this table, 'x' represents wind speed in knots.

Wind Barb Knots Wind Barb Knots
Calm x = 0 55kt 52.6 ≤ x ≤ 57.5
2kt 0 < x ≤ 2.5 60kt 57.6 ≤ x ≤ 62.5
5kt 2.6 ≤ x ≤ 7.5 65kt 62.6 ≤ x ≤ 67.5
10kt 7.6 ≤ x ≤ 12.5 70kt 67.6 ≤ x ≤ 72.5
15kt 12.6 ≤ x ≤ 17.5 75kt 72.6 ≤ x ≤ 77.5
20kt 17.6 ≤ x ≤ 22.5 80kt 77.6 ≤ x ≤ 82.5
25kt 22.6 ≤ x ≤ 27.5 85kt 82.6 ≤ x ≤ 87.5
30kt 27.6 ≤ x ≤ 32.5 90kt 87.6 ≤ x ≤ 92.5
35kt 32.6 ≤ x ≤ 37.5 95kt 92.6 ≤ x ≤ 97.5
40kt 37.6 ≤ x ≤ 42.5 100kt 97.6 ≤ x ≤ 102.5
45kt 42.6 ≤ x ≤ 47.5 105kt 102.6 ≤ x ≤ 107.5
50kt 47.6 ≤ x ≤ 52.5 110kt 107.6 ≤ x ≤ 112.5

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