SHIP NAME : Roger Revelle CRUISE : I6S (knox14rr) CRUISE DATES : 2008/02/04 to 2008/03/17 PORTS : Durban, South Africa to Capetown, South Africa CHIEF SCIENTIST : Kevin Speer DB_NAME : a_rr DATA FILES : uhdas raw logging STATUS : averaged;edited;heading corection; web plots. done. : ready for JASADCP INSTRUMENT : NB150 ACQUISITION PROGRAM : UHDAS PING TYPE : narrowband PARAMS : blank= 4 (BK) (see adcpdb/*cnh after first pass) pulse = 8 (PL) bin length= 8 (BL) number of bins= 50 (NB) HEADING PRIMARY : gyro CORRECTION : phins POSITIONS : GP90 CALIBRATION : amp = .9777 (during acquisition) : original heading alignment: 1.79 deg : corrected to phins, then applied 1.5deg. COMMENTS : several ashtech gaps. : ADCP acquisition computer failed to process data; processing all done afterwards. : data coverage 200-350m PROCESSORS: : Jules Hummon -------------------------------------------------------------- (1) new processing directory adcptree.py nb150 \ --datatype uhdas \ --configbase KNOX14RR \ --configpath /home/ipu1/uhdas_data_archive/revelle/KNOX14RR_legs/KNOX14RR/proc/nb150/config edit config files; specifically, choose phins for heading (2) make gbins # need to update gbins nbcfg = get_uhdascfg('cfgpath', 'config',... 'cfgbase', 'KNOX14RR',... 'instname', 'nb150',... 'instclass', nb,... 'pingtype', 'nb', ... 'uhdas_dir', '../data'); update_gbin(nbcfg,'whichones','all','logfpath','.','redo',1) (3) initialized control file cat << EOF > q_py.cnt ### --yearbase 2008 --pingtype nb --cfgbase KNOX14RR --cruisename KNOX14RR --instclass nb --instname nb150 --dbname a_rr --datatype uhdas --datadir /home/ipu1/uhdas_data_archive/revelle/KNOX14RR/raw/nb150 --cfgpath /home/ipu1/data/projects/clivar/KNOX14RR/nb150/config --hcorr_inst phins --ens_len 300 --ping_headcorr --use_topo4edit --use_refsm --firstdepth 35 --auto --tktail EOF (4) averaging and processing quick_adcp.py --cntfile q_py.cnt (5) heading: watertrack ---------------- Number of edited points: 210 out of 227 amp = 0.9988 + -0.0003 (t - 50.2) phase = 1.44 + -0.0123 (t - 50.2) median mean std amplitude 0.9990 0.9988 0.0084 phase 1.5665 1.4415 0.7714 bottom track -------------- (none) quick_adcp.py --yearbase 2008 --use_refsm --steps2rerun rotate:navsteps:calib \ --rotate_angle 1.5 --auto Number of edited points: 210 out of 227 amp = 0.9989 + -0.0003 (t - 50.2) phase = -0.06 + -0.0123 (t - 50.2) median mean std amplitude 0.9990 0.9989 0.0084 phase 0.0605 -0.0584 0.7712 ============================= (5) editing; recalibration tried heading correction with ashtech, but it didn't help much. phins seems to do a reasonable job. watertrack: ---------- Number of edited points: 167 out of 211 amp = 0.9985 + -0.0003 (t - 49.5) phase = -0.04 + -0.0113 (t - 49.5) median mean std amplitude 0.9990 0.9985 0.0079 phase 0.0730 -0.0407 0.7399 I think that's it.