Difference between revisions of "Geopsy: H/V and Spectrum Toolboxes: Processing Tab"

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*fixing the use or not of a [[Geopsy:_Taper|cosine taper]] on the individual window. In the goal to minimize the border effect due to the extraction of a window, it is strongly recommended to use a taper to avoid the creation of false frequencies.
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*fixing the use or not of a [[Geopsy:_Taper|cosine taper]] on the individual window. In the goal to minimize the border effect due to the extraction of a window and so improve its properties in the frequency domain, it is strongly recommended to use a taper to avoid the creation of false frequencies.
  
 
== ''Horizontal components'' ==
 
== ''Horizontal components'' ==

Revision as of 15:06, 10 March 2010

Processing tab giving access to smoothing, parameters (for windows) and how is processed the H/V (available only for H/V computing)

Here are described the different possibilities offered in this tab. This tab is divided in two areas:

-Parameters area

-Horizontal components

Parameters area

Processing tab giving access to smoothing, parameters (for windows) and how is processed the H/V (available only for H/V computing)

This area, common for H/V and Spectrum computings, is divided in three different parts with three different objectives :

  • fixing which smoothing will be applied to the windows (2 first lines).

During the computing of H/V or Spectrum, the Fourier spectra can be smoothed (it is strongly recommanded) in the goal to clarify the global aspect of the curves.

For Spectrum, each Fourier spectrum (coming from a window) is smoothed and then the averaged curve is computed.

For H/V, the horizontal Fourier spectra (NS and EW, coming from a synchronous window) are first added and then the smoothing is applied on the merged horizontal Fourier spectrum and on the vertical Fourier spectrum.


There are 4 possibilities for the smoothing: Process param smoothingtypes.png

  1. no smoothing. This can be sometime usefull to have a rough idea about Fourier spectra;
  2. Konno and Ohmachi smoothing. This smoothing use a constant bandwidth in a logarithmic scale and is strongly recommanded because this smoothing function preserves the different number of points at low and high frequency. This smoothing is controled by a smoothing constant varying in-between 0 and 100. A constant of 0 gives a very strong smoothing, when a constant of 100 a very soft smoothing, more details;
  3. Constant smoothing. This smoothing function has a triangular shape centered on the current frequency and its width is equal to "Band width" given by the user. This band width varies from 0 (soft smoothing) to 100 (strong smoothing);
  4. Proportional smoothing. This smoothing function has a triangular shape and its width depends upon the current frequency. The half width is defined by percentage*frequency. The value of "percentage" cannot be greater or equal to 100% (strong smoothing).


Whatever the smoothing method used, even if the impact of the smoothing is minimized, the result will be different from a processing without smoothing.


  • fixing the use or not of a cosine taper on the individual window. In the goal to minimize the border effect due to the extraction of a window and so improve its properties in the frequency domain, it is strongly recommended to use a taper to avoid the creation of false frequencies.

Horizontal components

that indicate how the H/V is computed


Konno K. and T. Ohmachi, 1998. Ground motion characteristics estimated from spectral ratio between horizontal and vertical components of microtremors. Bull. seism. Soc. Am., 88-1, 228-241

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