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Calculate ambient noise cross-correlations, measure phase velocities, and invert for phase velocity maps in MATLAB.

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ASWMS-noisetomo
ASWMS-noisetomo
 
 
ffk_tomo
ffk_tomo
 
 
fk_beamforming
fk_beamforming
 
 
functions
functions
 
 
mat-LRTdisp
mat-LRTdisp
 
 
other_scripts
other_scripts
 
 
qfiles
qfiles
 
 
ray_tomo
ray_tomo
 
 
.gitignore
.gitignore
 
 
OBS_orientations.txt
OBS_orientations.txt
 
 
README.md
README.md
 
 
a0_local_mseed2sac_dayfiles.py
a0_local_mseed2sac_dayfiles.py
 
 
a1_ccf_ambnoise_P.m
a1_ccf_ambnoise_P.m
 
 
a1_ccf_ambnoise_RTZ.m
a1_ccf_ambnoise_RTZ.m
 
 
a1_ccf_ambnoise_RZ_ellip.m
a1_ccf_ambnoise_RZ_ellip.m
 
 
a1_ccf_ambnoise_Z.m
a1_ccf_ambnoise_Z.m
 
 
a2_plot_ccf_record.m
a2_plot_ccf_record.m
 
 
a2_plot_ccf_record_tukeyfilt_daystacks.m
a2_plot_ccf_record_tukeyfilt_daystacks.m
 
 
a3_window_ccf.m
a3_window_ccf.m
 
 
a4_plot_ccfPSD.m
a4_plot_ccfPSD.m
 
 
a5_plot_real_imag.m
a5_plot_real_imag.m
 
 
a6_fitbessel.m
a6_fitbessel.m
 
 
a6_fitbessel_LRT.m
a6_fitbessel_LRT.m
 
 
a6_fitbessel_zerocross.m
a6_fitbessel_zerocross.m
 
 
a7_fit_1Danisotropy_2theta4theta.m
a7_fit_1Danisotropy_2theta4theta.m
 
 
setup_parameters.m
setup_parameters.m
 
 
stalist_good12.txt
stalist_good12.txt
 
 

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MATnoise

MATLAB package to perform ambient noise tomography

This package consists of two parts: (1) Calculation of ambient noise cross-spectra and measuring interstation phase velocities and (2) inverting interstation velocities for 1D or 2D isotropic phase velocity maps and 1D or 2D azimuthal anisotropy.

1. Ambient noise & phase velocities (a1-a7)

  • a1 - Calculate ambient noise cross correlations (vertical, radial, transverse) in the frequency domain.

    Processing options:

    Assumed directory structure for data: {datadirectory}/{station}/{station}.{yyyy}.{jday}.{hh}.{mm}.{SS}.{COMP}.sac
    e.g.: mydata/CC05/CC05.2018.112.00.00.00.BDH.sac

  • a2 - Plot empirical Green's functions in the time domain

  • a3 - Apply group velocity window around the surface wave arrivals of interest. This was originally developed in order to remove the water column arrival from ocean bottom datasets but should also clean up land spectra.

  • a4 - Plot power spectral density of the cross spectra in order to determine the frequency content of the dominant signal.

  • a5 - Plot the real and imaginary parts of the cross spectra to evaluate where signal is best and degree of bias from inhomogeneous noise sources.

  • a6 - Fit J_0 Bessel functions to real part of cross-spectra to extract interstation phase velocity dispersion. Can use results from the linear radon transform (see ./mat-LRTdisp) as the starting dispersion model.

    Menke & Jin (2015) BSSA; DOI:10.1785/0120140245

  • a7 - Try fitting the phase velocities assuming 1D isotropic velocity variations and 1D azimuthal anisotropy. Azimuthal anisotropy includes options for both 2-theta and 4-theta variations.

2. ray_tomo: Ray tomography for 2D phase velocity maps (b0-b1)

  • b0 - Plot ray paths between station pairs colored by velocity.
  • b1 - Use simple travel-time ray tomography to invert for 2D maps of isotropic phase velocity and 1D or 2D azimuthal anisotropy.
Acknowledgements:

These codes have evolved over the years with the help of several people including Ge Jin, Natalie Accardo, and Pei-Ying (Patty) Lin.

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Calculate ambient noise cross-correlations, measure phase velocities, and invert for phase velocity maps in MATLAB.

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