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Difference between revisions of "RadxKdp"

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RadxKdp ingests polarimetric radar data and calculates KDP from PHIDP.
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RadxKdp ingests polarimetric radar data and calculates <math>K_{DP}</math> from <math>\phi_{DP}</math>.
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=== '''Overview''' ===
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RadxKdp uses a couple different methods to calculate <math>K_{DP}</math> from <math>\phi_{DP}</math>. In general, <math>K_{DP}</math> is calculated from the <math>\phi_{DP}</math> slope between range gates (after smoothing and unfolding the <math>\phi_{DP}</math> data). Filtering smears out <math>K_{DP}</math> in range, so an additional field (KDP_SC) is constrained by <math>K_{DP}</math> estimated theoretically from <math>Z_H</math> and <math>Z_{DR}</math>.
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=== '''Scientific Background''' ===
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A detailed explanation of the procedure used to estimate <math>K_{DP}</math> can be found [http://wiki.lrose.net/index.php/KDP_estimation here].
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Information about how attenuation is estimated from <math>K_{DP}</math> can be found [http://wiki.lrose.net/index.php/Estimated_Attenuation here].
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=== '''Prerequesites''' ===
 
=== '''Prerequesites''' ===
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* Polarimetric radar data (any Radx supported format, e.g., cfradial)
 
* Polarimetric radar data (any Radx supported format, e.g., cfradial)
* Two parameter files to run RadxKdp and to calculate KDP.
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* Two parameter files to run RadxKdp and to calculate <math>K_{DP}</math>.
 
 
=== '''Overview''' ===
 
 
 
RadxKdp uses a couple different methods to calculate KDP from PHIDP. In general, KDP is calculated from the PHIDP slope between range gates (after smoothing and unfolding the PHIDP data). Filtering smears out KDP in range, so an additional field (KDP_SC) is constrained by KDP estimated theoretically from Z and ZDR.
 
  
 
A more detailed explanation of the procedure used to estimate KDP can be found [http://wiki.lrose.net/index.php/KDP_estimation here].
 
  
 
=== '''Parameter files''' ===
 
=== '''Parameter files''' ===
  
RadxKdp uses two separate parameter files. The first includes the basic parameters related to data location and field names, which is similar to the parameter files for the other Radx applications. The second includes the parameters that set the filtering length, method, and relevant coefficients necessary to calculate KDP and estimate attenuation.
+
RadxKdp uses two separate parameter files. The first includes the basic parameters related to data location and field names, which is similar to the parameter files for the other Radx applications. The second includes the parameters that set the filtering length, method, and relevant coefficients necessary to calculate <math>K_{DP}</math> and estimate attenuation.
  
 
==== '''1) Main parameter file''' ====
 
==== '''1) Main parameter file''' ====
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Input field information
 
Input field information
  
* SNR_available: determines if SNR data is in the file or needs to be calculated from DBZ
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* SNR_available: determines if SNR data is in the file or needs to be calculated from <math>Z_H</math>
 
* VARIABLE_field_name: tells RadxKdp the polarimetric variable names in the ingested cfradial files
 
* VARIABLE_field_name: tells RadxKdp the polarimetric variable names in the ingested cfradial files
  
 
Computing KDP
 
Computing KDP
  
* KDP_params_file_path: path to the KDP-specific parameter file
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* KDP_params_file_path: path to the <math>K_{DP}</math>-specific parameter file
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Output fields
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* output_fields: specify the fields to be written to the output file (including attenuation-corrected fields)
  
 
Output format
 
Output format
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Unfolding and filtering
 
Unfolding and filtering
  
* KDP_fir_filter_len: Filter length applied to PHIDP
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* KDP_fir_filter_len: Filter length applied to <math>\phi_{DP}</math>
  
 
Handling phase shift on backscatter (PSOB)
 
Handling phase shift on backscatter (PSOB)
  
 
* KDP_psob_method: Method to handle PSOB
 
* KDP_psob_method: Method to handle PSOB
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=== '''Running RadxKdp''' ===
 
=== '''Running RadxKdp''' ===
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<code lang="bash">/path/to/lrose/install/bin/RadxKdp -h</code>
 
<code lang="bash">/path/to/lrose/install/bin/RadxKdp -h</code>
  
Once your parameter file is complete, use a command similar to the following to run the application:
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Once your parameter file is complete, use a command similar to the following to run the application. ''Note: this command will '''''not''''' work for the FILELIST mode.''
  
 
<code lang="bash">/path/to/lrose/install/bin/RadxKdp -params param_file_name</code>
 
<code lang="bash">/path/to/lrose/install/bin/RadxKdp -params param_file_name</code>
  
The user can also specify the location of cfradial files in the following manner:
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If using FILELIST mode, the user needs to specify the location of cfradial files using the <code lang="bash">-f</code> flag:
  
 
<code lang="bash">/path/to/lrose/install/bin/RadxKdp -f /path/to/cfradial/files/ -params param_file_name</code>
 
<code lang="bash">/path/to/lrose/install/bin/RadxKdp -f /path/to/cfradial/files/ -params param_file_name</code>

Latest revision as of 20:27, 19 April 2024

RadxKdp ingests polarimetric radar data and calculates [math]\displaystyle{ K_{DP} }[/math] from [math]\displaystyle{ \phi_{DP} }[/math].

Overview

RadxKdp uses a couple different methods to calculate [math]\displaystyle{ K_{DP} }[/math] from [math]\displaystyle{ \phi_{DP} }[/math]. In general, [math]\displaystyle{ K_{DP} }[/math] is calculated from the [math]\displaystyle{ \phi_{DP} }[/math] slope between range gates (after smoothing and unfolding the [math]\displaystyle{ \phi_{DP} }[/math] data). Filtering smears out [math]\displaystyle{ K_{DP} }[/math] in range, so an additional field (KDP_SC) is constrained by [math]\displaystyle{ K_{DP} }[/math] estimated theoretically from [math]\displaystyle{ Z_H }[/math] and [math]\displaystyle{ Z_{DR} }[/math].


Scientific Background

A detailed explanation of the procedure used to estimate [math]\displaystyle{ K_{DP} }[/math] can be found here.

Information about how attenuation is estimated from [math]\displaystyle{ K_{DP} }[/math] can be found here.


Prerequesites

The following items are required:

  • Polarimetric radar data (any Radx supported format, e.g., cfradial)
  • Two parameter files to run RadxKdp and to calculate [math]\displaystyle{ K_{DP} }[/math].


Parameter files

RadxKdp uses two separate parameter files. The first includes the basic parameters related to data location and field names, which is similar to the parameter files for the other Radx applications. The second includes the parameters that set the filtering length, method, and relevant coefficients necessary to calculate [math]\displaystyle{ K_{DP} }[/math] and estimate attenuation.

1) Main parameter file

Ensure file is up to date

To obtain the default parameter file, use the following command:

/path/to/lrose/install/bin/RadxKdp -print_params > param_file_name

If you already have a parameter file and simply want to check for (and add) updated parameters while retaining current parameters, use the following command:

/path/to/lrose/install/bin/RadxKdp -params orig_param_file_name -print_params > new_param_file_name

Important parameters

Input params

  • input_dir: directory containing radar data (if not specified on the command line and if mode = REALTIME)
  • mode: determines if the program waits for new files (REALTIME), moves through start and end times specified on the command line (ARCHIVE), or moves through list of files specified on the command line (FILELIST)

Input field information

  • SNR_available: determines if SNR data is in the file or needs to be calculated from [math]\displaystyle{ Z_H }[/math]
  • VARIABLE_field_name: tells RadxKdp the polarimetric variable names in the ingested cfradial files

Computing KDP

  • KDP_params_file_path: path to the [math]\displaystyle{ K_{DP} }[/math]-specific parameter file

Output fields

  • output_fields: specify the fields to be written to the output file (including attenuation-corrected fields)

Output format

  • output_format: select the preferred file type (usually CFRADIAL)

Output directory

  • output_dir: files will be written to this directory

2) KDP-specific parameter file

Ensure file is up to date

To obtain the default parameter file, use the following command:

/path/to/lrose/install/bin/RadxKdp -print_params_kdp > param_file_name

If you already have a parameter file and simply want to check for (and add) updated parameters while retaining current parameters, use the following command:

/path/to/lrose/install/bin/RadxKdp -params_kdp orig_param_file_name -print_params_kdp > new_param_file_name

Important parameters

Unfolding and filtering

  • KDP_fir_filter_len: Filter length applied to [math]\displaystyle{ \phi_{DP} }[/math]

Handling phase shift on backscatter (PSOB)

  • KDP_psob_method: Method to handle PSOB


Running RadxKdp

To check all command line options for RadxKdp, including debugging options and file paths, type the following command into a terminal.

/path/to/lrose/install/bin/RadxKdp -h

Once your parameter file is complete, use a command similar to the following to run the application. Note: this command will not work for the FILELIST mode.

/path/to/lrose/install/bin/RadxKdp -params param_file_name

If using FILELIST mode, the user needs to specify the location of cfradial files using the -f flag:

/path/to/lrose/install/bin/RadxKdp -f /path/to/cfradial/files/ -params param_file_name