netcdf ocean-time-series/Stellwagen/MBAY_LT/7173advAq2.cdf { dimensions: burst = UNLIMITED; // (1760 currently) axis = 3; subburst = 5; variables: float burst(burst=1760); :units = "counts"; :long_name = "Burst Number"; double time(burst=1760); :units = "Julian Day"; :FORTRAN_format = "F10.2"; :long_name = "EPIC SYSTEM TIME"; :epic_code = 624; // int :type = "EVEN"; :valid_min = 0; // int :comment = "UT Julian days that begin at midnight; 1968-05-23 = 2440000"; :comment1 = "time, taken from the instrument, fixed at beginning of burst"; double time2(burst=1760); :FORTRAN_format = "F10.2"; :units = "msec"; :type = "EVEN"; :long_name = "msec since 0:00 GMT"; :epic_code = 624; // int :valid_min = 0; // int float flagbadadv_stdv(burst=1760, axis=3, subburst=5); :long_name = "Std. Dev. of velocity subbursts"; :units = "cm/s"; float flagbadadv_scutoff(axis=3, subburst=5); :long_name = "Velocity standard deviation threshold"; :units = "cm/s"; float flagbadadv_mcor(burst=1760, axis=3, subburst=5); :long_name = "Mean correlation of subbursts"; :units = "%"; float flagbadadv_ccutoff(axis=3, subburst=5); :long_name = "Correlation threshold"; :units = "%"; float flagbadadv_stdp(burst=1760); :long_name = "Raw pressure Std. Dev."; :units = "count or Hz"; float flagbadadv_override_as_bad(burst=1760, axis=3, subburst=5); :long_name = "Known bad flagged by user"; :units = "boolean, 1 = remove"; float flagbadadv_override_as_good(burst=1760, axis=3, subburst=5); :long_name = "Known good flagged by user"; :units = "boolean, 1 = keep"; float flagbadadv_mask(burst=1760, axis=3, subburst=5); :long_name = "velocity data mask"; :units = "Boolean, 1 = bad"; float thumbfinger_Velx_nbad(burst=1760); :units = "cm s-1"; :long_name = "number of bad points"; float thumbfinger_Velx_delmean(burst=1760); :units = "cm s-1"; :long_name = "ratio of the mean before and after points were replaced"; float thumbfinger_Velx_delvar(burst=1760); :units = "cm s-1"; :long_name = "ratio of the variance before and after points were replaced"; float thumbfinger_Velx_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float thumbfinger_Vely_nbad(burst=1760); :units = "cm s-1"; :long_name = "number of bad points"; float thumbfinger_Vely_delmean(burst=1760); :units = "cm s-1"; :long_name = "ratio of the mean before and after points were replaced"; float thumbfinger_Vely_delvar(burst=1760); :units = "cm s-1"; :long_name = "ratio of the variance before and after points were replaced"; float thumbfinger_Vely_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float thumbfinger_Velz_nbad(burst=1760); :units = "cm s-1"; :long_name = "number of bad points"; float thumbfinger_Velz_delmean(burst=1760); :units = "cm s-1"; :long_name = "ratio of the mean before and after points were replaced"; float thumbfinger_Velz_delvar(burst=1760); :units = "cm s-1"; :long_name = "ratio of the variance before and after points were replaced"; float thumbfinger_Velz_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float thumbfinger_heading_nbad(burst=1760); :units = "degrees, magnetic"; :long_name = "number of bad points"; float thumbfinger_heading_delmean(burst=1760); :units = "degrees, magnetic"; :long_name = "ratio of the mean before and after points were replaced"; float thumbfinger_heading_delvar(burst=1760); :units = "degrees, magnetic"; :long_name = "ratio of the variance before and after points were replaced"; float thumbfinger_heading_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float thumbfinger_pitch_nbad(burst=1760); :units = "degrees"; :long_name = "number of bad points"; float thumbfinger_pitch_delmean(burst=1760); :units = "degrees"; :long_name = "ratio of the mean before and after points were replaced"; float thumbfinger_pitch_delvar(burst=1760); :units = "degrees"; :long_name = "ratio of the variance before and after points were replaced"; float thumbfinger_pitch_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float thumbfinger_roll_nbad(burst=1760); :units = "degrees"; :long_name = "number of bad points"; float thumbfinger_roll_delmean(burst=1760); :units = "degrees"; :long_name = "ratio of the mean before and after points were replaced"; float thumbfinger_roll_delvar(burst=1760); :units = "degrees"; :long_name = "ratio of the variance before and after points were replaced"; float thumbfinger_roll_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float thumbfinger_temperature_nbad(burst=1760); :units = "degrees Celcius"; :long_name = "number of bad points"; float thumbfinger_temperature_delmean(burst=1760); :units = "degrees Celcius"; :long_name = "ratio of the mean before and after points were replaced"; float thumbfinger_temperature_delvar(burst=1760); :units = "degrees Celcius"; :long_name = "ratio of the variance before and after points were replaced"; float thumbfinger_temperature_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float thumbfinger_extpressfreq_nbad(burst=1760); :units = "Hz"; :long_name = "number of bad points"; float thumbfinger_extpressfreq_delmean(burst=1760); :units = "Hz"; :long_name = "ratio of the mean before and after points were replaced"; float thumbfinger_extpressfreq_delvar(burst=1760); :units = "Hz"; :long_name = "ratio of the variance before and after points were replaced"; float thumbfinger_extpressfreq_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float deglitch1vector_Velx_nbad(burst=1760); :units = "cm s-1"; :long_name = "number of bad points"; float deglitch1vector_Velx_nfixed_dg(burst=1760); :units = "cm s-1"; :long_name = "number of endpoints fixed by deglitch"; float deglitch1vector_Velx_nfixed_filt(burst=1760); :units = "cm s-1"; :long_name = "number of endpoints fixed by filter"; float deglitch1vector_Velx_delmean(burst=1760); :units = "cm s-1"; :long_name = "ratio of the mean before and after points were replaced"; float deglitch1vector_Velx_delvar(burst=1760); :units = "cm s-1"; :long_name = "ratio of the variance before and after points were replaced"; float deglitch1vector_Velx_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float deglitch1vector_Vely_nbad(burst=1760); :units = "cm s-1"; :long_name = "number of bad points"; float deglitch1vector_Vely_nfixed_dg(burst=1760); :units = "cm s-1"; :long_name = "number of endpoints fixed by deglitch"; float deglitch1vector_Vely_nfixed_filt(burst=1760); :units = "cm s-1"; :long_name = "number of endpoints fixed by filter"; float deglitch1vector_Vely_delmean(burst=1760); :units = "cm s-1"; :long_name = "ratio of the mean before and after points were replaced"; float deglitch1vector_Vely_delvar(burst=1760); :units = "cm s-1"; :long_name = "ratio of the variance before and after points were replaced"; float deglitch1vector_Vely_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float deglitch1vector_Velz_nbad(burst=1760); :units = "cm s-1"; :long_name = "number of bad points"; float deglitch1vector_Velz_nfixed_dg(burst=1760); :units = "cm s-1"; :long_name = "number of endpoints fixed by deglitch"; float deglitch1vector_Velz_nfixed_filt(burst=1760); :units = "cm s-1"; :long_name = "number of endpoints fixed by filter"; float deglitch1vector_Velz_delmean(burst=1760); :units = "cm s-1"; :long_name = "ratio of the mean before and after points were replaced"; float deglitch1vector_Velz_delvar(burst=1760); :units = "cm s-1"; :long_name = "ratio of the variance before and after points were replaced"; float deglitch1vector_Velz_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float deglitch1vector_extpressfreq_nbad(burst=1760); :units = "Hz"; :long_name = "number of bad points"; float deglitch1vector_extpressfreq_nfixed_dg(burst=1760); :units = "Hz"; :long_name = "number of endpoints fixed by deglitch"; float deglitch1vector_extpressfreq_nfixed_filt(burst=1760); :units = "Hz"; :long_name = "number of endpoints fixed by filter"; float deglitch1vector_extpressfreq_delmean(burst=1760); :units = "Hz"; :long_name = "ratio of the mean before and after points were replaced"; float deglitch1vector_extpressfreq_delvar(burst=1760); :units = "Hz"; :long_name = "ratio of the variance before and after points were replaced"; float deglitch1vector_extpressfreq_stdr(burst=1760); :units = ""; :long_name = "standard deviation of the residuals"; float clip_extpressfreq_removed(burst=1760); :units = ""; :long_name = "true if all samples removed from burst"; // global attributes: :CREATION_DATE = "08-Aug-2008 16:07:10"; :DESCRIPT = "Sontek ADV raw data quality file"; :COORD_SYSTEM = "NONE"; :DATA_TYPE = "TIME"; :history = "Written via MATLAB by adr2cdf SVN $Revision: 1116 $; cleanhydra SVN $Revision: 1153 $ applied thumbfinger with nsd = 10.000000; cleanhydra SVN $Revision: 1153 $ applied clip with rvalue = NaN"; :thumbfinger_nsd = 10.0; // double :thumbfinger_nsd_ori = 10.0; // double :deglitch1vector_samplerate = 5.0; // double :deglitch1vector_verbose = 0.0; // double :deglitch1vector_nsd = 2.8; // double :deglitch1vector_nsd_ori = 2.8; // double :clip_min = 34500.0; // double :clip_max = 36000.0; // double :NOTE = "Tripod tipped on Dec. 7, 2003, at 0000h. velocity data after that is suspect. advA* files have velocity and end early, advB* files just have good data from other sensors, starting after the tip. The -calq file has all the variables for the whole time, including bad velocity- use with caution!"; }