FINDLOG: search near file: ../k072/A1704001.612 FINDLOG: give up FINDLOG: search near file: ../k072/A1704001.612 READSERIAL_BB: parse file ../k072/K072 down looking serial number is : 2612 up looking serial number is : NaN LOADRDI: Loading data loading down-data ../k072/A1704001.612 ISBB: BB-data raw data has 432+2 bytes per ensemble read 3796 ensemble and 16 bins using increased bottom echo amplitudes to create bottom track use bin below maximum for bottom track created 334 bottom track data from normal velocities removed 0 values because of low percent good found 334 finite bottom velocities removed 0 values because of high error velocity removed 0 bottom values because of high error velocity using whole profile since no start time was given removed 0 profiles due to larger tilt than 22 removed 23 profiles due to larger tilt difference than 4 multiply weight of bin 1 by 0.5 Outlier discarded 1575 bins down looking ==> load data took 26 seconds LOADNAV: load NAV time series ../ctdnav/07201.ctd Warning: COLON arguments must be real scalars. > In /home/felixt/A20/scripts/loadnav.m at line 33 In /home/felixt/ladcp/m/laproc.m at line 43 In /home/felixt/A20/scripts/runme.m at line 85 number of NAV scans: 7999 delta t : 0.43198 seconds update start pos from:NaN°N NaN' NaN°E NaN' to: 8°N 3.4980' 53°W 1.3236' updated magnetic deviation and applied correction update end pos from:NaN°N NaN' NaN°E NaN' to: 8°N 4.5180' 53°W 0.6186' LOADCTD: load CTD time series ../ctdnav/07201.ctd Warning: COLON arguments must be real scalars. > In /home/felixt/A20/scripts/loadctd.m at line 46 In /home/felixt/ladcp/m/laproc.m at line 60 In /home/felixt/A20/scripts/runme.m at line 85 number of CTD scans: 7999 delta t : 0.43198 seconds max CTD pressure 1276 at 17-Oct-2003 04:13:04 max LADCP depth 1254 at 17-Oct-2003 04:12:25 WARNING WARNING bottom time difference between CTD/LADCP is -1 minute Changed Start Time : 17-Oct-2003 03:35:19 to 17-Oct-2003 03:48:58 Changed End Time : 17-Oct-2003 04:57:33 to 17-Oct-2003 04:50:13 CTD max depth : 1265 best lag : 35 pings ~ 45 seconds corr:0.98413 adjust ADCP time to CTD time and shift depth record adjust start/end position GETDPTHI: Depth from vertical velocity inverse method starting run 1 to LADCP depth take soundspeed from CTD profile correct velocities for sound speed maximum depth from int W is :1265.2775 should be :1265.2775 bottom found at 1277 +/- 1 m removing 90 values below bottom ==> get depth took 70 seconds PREPINV: prepare data for inversion, form Super-Ensembles average profiles over (p.avdz) 16 meter discarded 0 bottom tracks velocities because of dist > 300 reduce weight for larger tilts 0.5 at 10 degree will not correct for sound speed twice remove reference velocity and average ensembles Outlier discarded 208 bins down looking reduced ensemble size is 137 LOADSADCP: load SADCP data file ../sadcp/A20_sadcp.mat found 4 SADCP profiles ==> prep inversion took 11 seconds GETINV: compute best velocity profile Barotropic velocity error 0.016327 [m/s] super ensemble velocity error 0.0087252 [m/s] set velocity error to:0.016686 [m/s] vertical resolution (ps.dz) is 10 [m] preaveraged GPS ships vel 1 times smooth Ocean velocity profile found 16 ill constrained elements smooth CTD velocity profile found 4 ill constrained elements bottom inversion mean bottom track weight : 0.78156 weight for bottom track is (ps.botfac) 1 mean sadcp weight : 0.47575 weight for SADCP vel is (ps.sadcpfac) 1 add barotropic constrain weight: 1.022 weight for drag is (ps.dragfac) 0.11197 ready for inversion length of d : 2302 (CTD vel) length of A1:137 (ocean vel) length of A2:127 Moore-Penrose inverse solve only down trace smooth Ocean velocity profile found 16 ill constrained elements smooth CTD velocity profile Cholesky transform solve only up trace smooth Ocean velocity profile found 16 ill constrained elements smooth CTD velocity profile found 2 ill constrained elements Cholesky transform ==> inversion took 3 seconds GETSHEAR2: average shear profile over (ps.dz) 10 [m] maximum std (stdf) 2 of data minimum weight 0.1 of data will use 95 % of data compute vertical diffusivity use dz:640 m long segments save results