Difference between revisions of "Active source experiment (MASW)"
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=== General overview === | === General overview === | ||
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| + | First introduced by Al-Husseini et al. (1981), Mari (1984), Gabrielset al. (1987), the Multichannel analysis of surface waves was popularized by Park et al. (1999). This technique relies on the recording along a 1D linear profile of seismic signals produced by a controlled source (hammer, vibrator, explosion, etc.) and analysis of surface wave dispersion properties after applying slant-stack or FK transform to the recorded seismic section. In the following tutorial, only the [[FK|FK]] transform is used. | ||
=== Getting ready === | === Getting ready === | ||
Revision as of 09:16, 11 March 2010
Contents
General overview
First introduced by Al-Husseini et al. (1981), Mari (1984), Gabrielset al. (1987), the Multichannel analysis of surface waves was popularized by Park et al. (1999). This technique relies on the recording along a 1D linear profile of seismic signals produced by a controlled source (hammer, vibrator, explosion, etc.) and analysis of surface wave dispersion properties after applying slant-stack or FK transform to the recorded seismic section. In the following tutorial, only the FK transform is used.
Getting ready
- Load files coming from one shot point
- mettre un fichier contenant les donnees
Checking sources and receivers location
- Edit headers if needed
- cross-link avec table, set headers
Description of the MASW toolbox
- difference entre taper et processing window
- HRFK (cross-link avec HRFK de Mathias)
- normalize energy
FK Computing
- computation for one single file and picking of the curve
- alternatives : 1) create a stack file and then compute the FK; 2)compute FK for all shots and then stack the FK maps
