RPSLEVLT GX
Use the RPSLEVLT GX to create background-corrected airborne radiometric data.
Specify Aircraft Background & Cosmic Stripping Values dialog options
|
Aircraft Background Values (cps) |
|
Total Count |
|
Potassium |
|
Uranium |
|
Thorium |
|
Upward U |
|
Cosmic Stripping Ratios (cps / cosmic cps) |
|
Total Count |
|
Potassium |
|
Uranium |
|
Thorium |
|
Upward U |
Additional Script Parameters
Application Notes
The system first corrects data for cosmic and aircraft background radiation. It then corrects data for atmospheric radon background radiation using one of several methods (Upward-looking crystals, Overwater2, or WaterBack methods).
The GX works on pre-processed channels (denoted by FILT) and creates background-removed channels (denoted by LEVL). Note that in the current implementation these channel names are hardcoded. This streamlines the data input process.
The Background GX runs three processes -- aircraft corrections, cosmic corrections and radon background corrections. There are three methods for applying radon corrections, including a channel-based method (upward-looking uranium), a table-based method (Overwater2), and an interactive highlighting method (WaterBack).
To level your database, you must complete multiple dialog boxes. The first of these is for aircraft background and stripping corrections and the second is for selecting a radon levelling method. Depending on the method you select, the system displays either two more or one more dialog boxes.
Aircraft background and stripping values are normally supplied by your survey contractor. When you see this screen, you can either enter new values or accept the defaults as displayed. Press OK.
Next choose a method, for example, Upward and press OK. You see another dialog box containing instrument-dependent proportionality factors and experimental constants. Enter the values for your survey or enter zeros and press OK.
The next dialog requires that you enter a name corresponding to the channel configured for upward-looking uranium data. Type UP_U and press OK. You then see a series of three progress bars indicating that the system is processing the data. When the GX finishes, compare the raw, filtered (FILT) and levelled (LEVL) channels in the profile window.
Additional Notes
You may have noticed that the dialog box in which you entered the name of the upward-looking channel also provided fields for levelling interim channels (UTEMP, etc).
The default filtering settings are designed to eliminate any remaining high frequency noise in the interim channel so that data are levelled as smoothly as possible.
To evaluate how these filters will affect levelling of datasets in the real world, you may want to experiment by changing the low pass value. A 200 point filter (for 1 second data) is recommended as a starting point - the data should be stored as a single line for the entire flight in order to use these long filters.
This method works on a line of data - therefore, if you want to process your data by flight (recommended), then you must store your flights of data as single lines until all processing is done. You can then break up the flight into survey lines.
Got a question? Visit the Seequent forums or Seequent support
© 2023 Seequent, The Bentley Subsurface Company
Privacy | Terms of Use