'left': llon,
'right': rlon
},
'max_dep': max_depth,
'rm_fixd': rem_fixd,
'max_rms': max_rms,
'max_gap': max_gap,
'max_err': max_spatial_err,
'mode': mode,
'phase': {
'lst_pha': lst_phase,
'min_P': min_P,
'min_S': min_S
}
}
filtered_data = q_filter(bmkgdata, filt_dic, inptype='BMKG', prob_flag=False)
WriteNLLoc(inp=filtered_data,
area=filt_dic['area'],
out_nlloc=output_nlloc,
out_mag=output_mag,
out_arr=output_arr,
out_cat=output_cat,
out_geom=out_geo,
out_log=out_log)
map_area(filt_dic['area'])
check_outliers(arrival_file=output_arr, std_error=4, plot_flag=True)
'rm_fixd': rem_fixd,
'max_rms': max_rms,
'max_gap': max_gap,
'max_err': max_spatial_err,
'mode': mode,
'phase': {
'lst_pha': lst_phase,
'min_P': min_P,
'min_S': min_S
}
}
filtered_data = q_filter(bmkgdata, filt_dic, inptype='BMKG', prob_flag=False)
WriteNordic(inp=bmkgdata,
filt=filt_dic,
out=output,
out_log=out_log,
inptype='BMKG',
filt_flag=filter_flag,
prob_flag=False)
map_area(filt_dic['area'])
check_outliers(arrival_file='output/arrival.dat', std_error=4)
if save_dic:
nldic = open(out_dic, 'wb')
pickle.dump(bmkgdata, nldic)
nldic.close()
'top': ulat,
'bot': blat,
'left': llon,
'right': rlon
},
'max_dep': max_depth,
'rem_fixd': rem_fixd,
'max_rms': max_rms,
'max_gap': max_gap,
'max_err': max_spatial_err,
'lst_pha': lst_phase,
'min_pha': min_pha
}
index_event = CNV_Filter(cnvdata,
filt_dic,
out_cnv,
out_cat=output_cat,
out_log=out_log)
arr_filter(inp_arr, out=output_arr, index=index_event)
geometry_filter(inp_stt, out=output_stt, index=index_event)
map_area(filt_dic['area'], out_dir=out_root)
check_outliers(arrival_file=output_arr,
out_dir=out_root,
std_error=4,
plot_flag=False)