# MAX FORMAT RELEASE 1.1 # # BEGIN COMMAND LINE ARGUMENTS # /opt/GEOPSY/3.3.0/bin/geopsy # # END COMMAND LINE ARGUMENTS # # # BEGIN SOFTWARE VERSION # Qt 5.12.4 QGpCoreTools 2.3.0 from 3.3.0 (commit 983443539b16cb7eb9f817aba613878bfa8387d2) QGpGuiTools 2.3.0 from 3.3.0 (commit b4eb0f9f13593fe42198fccba7624436172ecb47) QGpCoreMath 1.3.0 from 3.3.0 (commit 6d6c333601021b2f3cdc3a6ace9f74054d5f1fbc) SciFigs 3.2.0 from 3.3.0 (commit 5f16f1c5c00c07844f53d99af19b7e182750501d) QGpGuiMath 1.2.0 from 3.3.0 (commit faa17508c4f1fba33243783bba1955c9183f755a) GeopsyCore 4.3.0 from 3.3.0 (commit 2d1053fcb0d1505bc2be26bccc2a3ff03b7904db) GeopsyGui 3.3.0 from 3.3.0 (commit 310fabb2850c42e2b52e976e011650216a112776) GeopsySLink 2.0.1 from 3.3.0 (commit 73f633caad3bb84d0868fd4664d987a6bcc23eda) GeopsySLinkGui 2.0.2 from 3.3.0 (commit 8675890d18ac92f2c52b01ab894599005eec60a1) geopsy 3.3.0 from 3.3.0 (commit edc7aa1c86fb35478df61c102ef3dc74f26f42c9) geopsyfigs 1.0.1 from 3.3.0 (commit 25d52700d0cb725463793a62a1950655aa3474a4) campbelltob3 1.0.1 from 3.3.0 (commit f19a0be5019b25adcaf2ff600f722e2aad2e54bc) QGpCoreWave 2.1.0 from 3.3.0 (commit 6404f920b3d99accb526a6fd359766b67804642c) QGpCompatibility 1.1.0 from 3.3.0 (commit a470653359bd7217d4273802bc020bdfd913dc17) DinverCore 1.2.0 from 3.3.0 (commit 382fa94bf43f62f356dbdeef2aee52114e16c421) DinverDCCore 2.1.0 from 3.3.0 (commit 2a7061efece47364a42bb78a480fbc155198ecae) DinverGui 1.0.0 from 3.3.0 (commit eb757fad15ba815aba391fe7b770b0e65d94cd94) QGpGuiWave 1.1.0 from 3.3.0 (commit 56875c3c96029175cdeda54ac36b580c6f078c85) QGpCoreStat 1.1.0 from 3.3.0 (commit 4d463933781ee3e0aabdd6d9e7b222143bf96f78) ArrayCore 4.0.0 from 3.3.0 (commit 432a00982e547ced0771be07755cae58248a1288) ArrayGui 1.2.0 from 3.3.0 (commit cb454ed4cf50b012892ff647822553745b434667) geopsyarray 3.2.0 from 3.3.0 (commit da27454dcb28a4b868598a1d8833cef42b06b38f) geopsydamping 2.1.0 from 3.3.0 (commit 543b0989f11c21cb8b81d3d09280597cf5805984) HVCore 1.0.0 from 3.3.0 (commit 1aa8aa71aade27a8577d6d0448c727d5a66679b7) HVGui 1.0.0 from 3.3.0 (commit 1117683bf9d763be047b431b841807fe5b867c5d) geopsyhv 4.0.0 from 3.3.0 (commit ee039434695c943ae329910e81e71fee6549a24e) geopsynr 1.1.0 from 3.3.0 (commit a2955ae475b1335518bda8b940c30c9162ed22cf) geopsyptmotion 2.0.1 from 3.3.0 (commit 82b28072264c0a441c540f4b15ae862e0acba362) geopsyrefra 2.0.1 from 3.3.0 (commit 97dc1f5191fb78d30a08eb6397201e12e875dbdf) geopsytfa 2.1.0 from 3.3.0 (commit 53b42a4760e3c228fb63fec1076ac7e847db5fb4) hvtfa 2.1.0 from 3.3.0 (commit fabf7affaa7f7283cf0854fd1fb750d18a001f94) matfiles 1.0.2 from 3.3.0 (commit eb4df5df45164d403103c6318b76c5090d3c5045) # # END SOFTWARE VERSION # # # BEGIN STATION LIST # 453001648 200853.34 405518.59 0.00 453001657 200854.80 405524.90 0.00 453001756 200849.23 405510.28 0.00 453001767 200857.07 405508.73 0.00 453001870 200869.85 405547.43 0.00 453001920 200867.89 405539.15 0.00 453001948 200861.93 405523.52 0.00 453002066 200859.89 405532.55 0.00 453002097 200864.04 405548.26 0.00 453002467 200864.24 405530.95 0.00 453002488 200859.39 405516.86 0.00 453002782 200859.64 405540.28 0.00 # # END STATION LIST # # # BEGIN PARAMETERS # # TYPEs: # - Signal: from the start or to the end of signal (TEXT are useless) # - Delta: a fixed duration counted from the start or the end (e.g. TEXT=1h). # - Pick: from or to a time pick (TEXT=time pick name). # - Absolute: from or to a fixed time (e.g. TEXT=20170314115338.00) FROM_TIME_TYPE=Signal FROM_TIME_TEXT=0s # TYPEs: Signal, Delta, Absolute TO_TIME_TYPE=Absolute TO_TIME_TEXT=20191025055222.001000 REFERENCE= # TYPEs: Exactly, AtLeast, FrequencyDependent WINDOW_LENGTH_TYPE=FrequencyDependent PERIOD_COUNT=100 WINDOW_MAX_COUNT=0 WINDOW_POWER_OF_TWO (y/n)=n BAD_SAMPLE_TOLERANCE (s)=0 BAD_SAMPLE_GAP (s)=0 WINDOW_OVERLAP (%)=0 # TYPEs: NoSampleThreshold, RelativeSampleThreshold, AbsoluteSampleThreshold BAD_SAMPLE_THRESHOLD_TYPE=NoSampleThreshold ANTI-TRIGGERING_ON_RAW_SIGNAL (y/n)=n ANTI-TRIGGERING_ON_FILTERED_SIGNAL (y/n)=n # Start a time window for each seismic event available inside the time range. SEISMIC_EVENT_TRIGGER (y/n)=n SEISMIC_EVENT_DELAY (s)=-0.1 MINIMUM_FREQUENCY=0.5 MAXIMUM_FREQUENCY=10 # Either 'log' or 'linear' SAMPLING_TYPE_FREQUENCY=Log # Number of samples is either set to a fixed value ('Count') or through a step between samples ('Step')' STEP_TYPE_FREQUENCY=Count SAMPLES_NUMBER_FREQUENCY=300 # STEP=ratio between two successive samples for 'log' scales # STEP=difference between two successive samples for 'linear' scales STEP_FREQUENCY=1.01004 INVERSED_FREQUENCY (y/n)=n # Overlap is controled by the WINDOWS parameters, by default non overlapping blocks are selected BLOCK_OVERLAP(y/n)=n # If BLOCK_COUNT is null, BLOCK_COUNT=BLOCK_COUNT_FACTOR* BLOCK_COUNT=1 BLOCK_COUNT_FACTOR=0.5 # If STATISTIC_COUNT is not null, approx. STATISTIC_COUNT estimates par frequency STATISTIC_COUNT=0 # If STATISTIC_MAX_OVERLAP=100%, successive statistics can be computed on overlapping block sets # If STATISTIC_MAX_OVERLAP=0%, successive statistics are computed on non-overlapping block sets STATISTIC_MAX_OVERLAP(%)=0 TAPER_WINDOW_TYPE=Tukey TAPER_WINDOW_REVERSED=n TAPER_WINDOW_ALPHA=0.2 # Gaussian band width from f*(1-bw) to f*(1+bw), f*bw=stddev FREQ_BAND_WIDTH=0.01 # Required when using short and fixed length time windows, avoid classical oblique lines visible in the results # when the number of frequency samples is higher than the number of points in the spectra. OVER_SAMPLING_FACTOR=1 # A station is selected for processing only if it is available over a duration greater or equal to # SELECT_DURATION_FACTOR*[total required duration]. The factor can vary from 0 to 1 SELECT_DURATION_FACTOR=0 # A station is selected for processing only if it is located at less than SELECT_ARRAY_RADIUS # from SELECT_ARRAY_CENTER. SELECT_ARRAY_CENTER is the X, Y coordinates of the center. SELECT_ARRAY_CENTER=0 0 SELECT_ARRAY_RADIUS=0 # Assuming that north of sensors is aligned to the magnetic north and sensor coordinates to UTM grid, # relative coordinates between stations are calculated with a correction for the difference between the # geographical and the local UTM norths and for the magnetic declination. The later can be, for instance, # calculated at https://www.ngdc.noaa.gov/geomag-web/#declination # The value must be in degrees. MAGNETIC_DECLINATION=0 OUTPUT_BASE_NAME=/Master/PROJECT/Microarray/GEOPSY/gui-BKU.max # Process types: # [All types can be used with vertical or three component datasets] # Keyword Beamformer Comments # DirectSteering Capon Cross spectrum made of raw components E, N and Z. # Radial and transverse projections included in steering matrix. # Combined optimum power. # Omni Capon Same cross spectrum as DirectSteering. # Ouput power is the sum of power in all directions # RTBF Capon According to Wathelet et al (2018). # Cross spectrum made of radial and transverse projections. # PoggiVertical Capon According Poggi et al. (2010) # k picked from vertical processing # PoggiRadial Capon According Poggi et al. (2010) # k picked from radial processing # Conventional Conventional Conventional FK processing # Cross spectrum made of radial and transverse projections. # ActiveRTBF Capon High resolution for active source # Cross spectrum made of radial and transverse projections. # ActiveDirectSteering Capon Cross spectrum made of raw components E, N and Z. # Radial and transverse projections included in steering matrix. # ActiveConventional Conventional Conventional FK processing # Cross spectrum made of radial and transverse projections. # Experimental modes: # DirectSteeringVertical Capon Cross spectrum made of raw components E, N and Z. # Radial and transverse projections included in steering matrix. # Radial ellipticity steering. # DirectSteeringRadial Capon Cross spectrum made of raw components E, N and Z. # Radial and transverse projections included in steering matrix. # Vertical ellipticity steering. # DirectSteeringRefined Capon Cross spectrum made of raw components E, N and Z. # Radial and transverse projections included in steering matrix. # Iterative ellitpticity assessment. PROCESS_TYPE=Conventional # For debug purpose, save a bit of time by skipping Love computation SKIP_LOVE(y/n)=n # Inversion method used for getting FK peaks: Gradient or RefinedGrid INVERSION_METHOD=RefinedGrid # Wavenumber fine gridding used as a cache for the FK maps CACHE_GRID_STEP (rad/m)=0 # If CACHE_GRID_STEP is null, GRID_STEP is computed from K_MIN*CACHE_GRID_STEP_FACTOR. CACHE_GRID_STEP_FACTOR=0.05 # Wavenumber coarse gridding used for searching maxima of the FK maps GRID_STEP (rad/m)=0.025 # If GRID_STEP is null, GRID_STEP is computed from K_MIN*GRID_STEP_FACTOR. GRID_STEP_FACTOR=0.25 GRID_SIZE (rad/m)=0.1 # Minimum velocity of the searched maxima of the FK map MIN_V (m/s)=300 # Maximum velocity of the searched maxima of the FK map MAX_V (m/s)=10000 # Minimum azimuth of the searched maxima of the FK map (math MIN_AZIMUTH (deg.)=0 # Maximum azimith of the searched maxima of the FK map (math) MAX_AZIMUTH (deg.)=360 # Theoretical Kmin and Kmax computed from array geometry # Used only for post-processing (AVIOS project) K_MIN (rad/m)=0.463216 K_MAX (rad/m)=0.719183 N_MAXIMA=1 ABSOLUTE_THRESHOLD=0 RELATIVE_THRESHOLD (%)=10 EXPORT_ALL_FK_GRIDS=n DAMPING_FACTOR=0 # If provided and PROCESS_TYPE==DirectSteering, the ellipticity is forced to the provided curve. # The file must contain two columns: frequency and signed ellipticity. # Provided sampling must not necessarily match the processing sampling frequency, linear interpolation is used. # Better for precision if the two sampling match. # To generate a synthetic curve: gpell M2.1.model -one-mode -R 1 -min 0.5 -max 50 -n 187 > curve.txt FIXED_ELLIPTICITY_FILE_NAME= # Minimum distance between source and receiver (for active source only) MINIMUM_DISTANCE=0 # Maximum distance between source and receiver (for active source only) MAXIMUM_DISTANCE=1e+99 # Experimental join processing of several arrays # Several ARRAY can be defined with a list of station names # Number of steps for the computation of radial/transverse projections ROTATE_STEP_COUNT=72 # SOURCE_GRID_STEP=1 SOURCE_GRID_SIZE=0 # # END PARAMETERS