/***************************************************************************** FILE: adcpsect.cnt This control file is used with the adcpsect program to extract ADCP data for specified sections along a cruise track from a CODAS database, perform the desired calculations, and write the result to text and Matlab files. The sections are specified as time ranges. This particular version is used to extract water track velocities for plotting contours. Only those options used in this example are described in this control file. NOTE: a more verbose control file example with all possible options listed and a longer explantation of the output exists in ../nav/adcpsect.cnt INPUT: CODAS database OUTPUT: 1. text file (.con file) with following columns: a. x-axis data (latitude in decimal degrees for this example) b. y-axis data (depth in meters for this example) c. zonal velocity (in cm/s for this example) d. meridional velocity (in cm/s for this example) 2. text file of statistics--mean (.sta file) 3. Matlab files a. _uv.mat contains array "uv" with two columns for each ensemble, first u and then v. The row corresponds to the depth grid. b. _xy.mat contains array "xyt" with a column for each ensemble, and three rows: longitude, latitude, decimal day; and vectors "z" and "zc" with the depth grid and the grid interval centers, respectively. ------------------------------------------------------------------------------ CONTROL FILE STRUCTURE: dbname: < CODAS database name > output: < output filename > step_size: < number of profiles to advance > ndepth: < number of depth bins to read and process > time_ranges: < combined or separate > year_base= < base year for decimal days > option_list: [ pg_min= <30> ] [ reference: { choose only one of the following: } < reference_bins <5> to <20> | none | final_ship_ref | nav_position | nav_velocity | bottom_track | dir_position > ] [ regrid: < integrate | interpolate | centered_average | average | per_grid_interval > < depth | svan | pot_svan | sigma_theta | sigma_t > { one of the last 4 only if the ctd: option has been selected } < grid number= <50> origin= <16> increment= <8> | grid_list number= < 5> boundaries: <20> <40> <60> <80> <100> > ] [ contour: { output in .con text file } < latitude | longitude | time > < middle | mean > minimum_npts= <10> units= <0.01> ] [ statistics: { output in .sta text file } [ mean ] [ variance ] [ extrema ] [ norm_extrema ] [ indices ] [ all ] units= <0.01> end ] [ flag_mask: < bit-mask > { bit-mask is any one or more of those defined in . adcpmask.h; these cumulatively indicate which . criteria to consider in flagging profile bins . as bad prior to calculations. Use this option end ] if you want flagging other than the default ALL_BITS } end {list time_ranges: one of the following } < all > { or } { or } {list of YMDHMS time pairs } < yy/mm/dd hh:mm:ss > to < yy/mm/dd hh:mm:ss > . . { or } < @tr_filename > { where tr_filename is a file of timeranges } { such as the output of timegrid } ----------------------------------------------------------------------------*/ dbname: ../adcpdb/ademo output: se /* must be <= 5 chars. for DOS */ step_size: 1 ndepth: 58 time_ranges: separate year_base= 1993 option_list: pg_min= 30 reference: final_ship_ref regrid: centered_average depth grid number= 45 origin= 20 increment= 10 contour: longitude mean minimum_npts= 3 units= 0.01 statistics: all units= 0.01 end flag_mask: ALL_BITS end end /* @../grid/ademo_se.lon */ /* Grid boundaries for: dbname: ../adcpdb/ademo output: ademo_se.lon year_base: 1993 step_size: 1 latitude origin: -0.050000 increment: 0.100000 longitude origin: -0.050000 increment: 0.100000 */ /* Time range: 93/04/10 07:36:00 to 93/04/10 23:58:00 */ 93/04/10 07:36:00 /* 13.535 -91.577, 99.31667 (begin time range) */to 93/04/10 07:46:01 /* 13.522 -91.560, 99.32362; 10 min */ 93/04/10 07:51:02 /* 13.514 -91.549, 99.32711 */to 93/04/10 08:26:01 /* 13.455 -91.472, 99.35140; 35 min */ 93/04/10 08:31:02 /* 13.447 -91.461, 99.35488 */to 93/04/10 08:36:00 /* 13.438 -91.451, 99.35833; 5 min */ 93/04/10 08:41:01 /* 13.429 -91.440, 99.36182 */to 93/04/10 09:21:03 /* 13.359 -91.353, 99.38962; 40 min */ 93/04/10 09:26:01 /* 13.350 -91.342, 99.39307 */to 93/04/10 09:26:01 /* 13.350 -91.342, 99.39307; 0 min */ 93/04/10 09:31:01 /* 13.342 -91.331, 99.39654 */to 93/04/10 10:06:05 /* 13.279 -91.254, 99.42089; 35 min */ 93/04/10 10:11:01 /* 13.270 -91.243, 99.42432 */to 93/04/10 10:21:01 /* 13.253 -91.221, 99.43126; 10 min */ 93/04/10 10:26:02 /* 13.244 -91.210, 99.43475 */to 93/04/10 10:51:00 /* 13.201 -91.156, 99.45208; 25 min */ 93/04/10 10:56:02 /* 13.193 -91.145, 99.45558 */to 93/04/10 11:21:01 /* 13.151 -91.090, 99.47293; 25 min */ 93/04/10 11:26:03 /* 13.142 -91.079, 99.47642 */to 93/04/10 11:36:01 /* 13.126 -91.057, 99.48334; 10 min */ 93/04/10 11:41:00 /* 13.118 -91.046, 99.48681 */to 93/04/10 12:21:02 /* 13.051 -90.958, 99.51461; 40 min */ 93/04/10 12:26:00 /* 13.043 -90.947, 99.51806 */to 93/04/10 13:11:01 /* 12.968 -90.852, 99.54932; 45 min */ 93/04/10 13:16:01 /* 12.959 -90.842, 99.55279 */to 93/04/10 13:21:01 /* 12.951 -90.832, 99.55626; 5 min */ 93/04/10 13:26:03 /* 12.942 -90.821, 99.55976 */to 93/04/10 13:56:00 /* 12.892 -90.760, 99.58056; 30 min */ 93/04/10 14:01:00 /* 12.883 -90.750, 99.58403 */to 93/04/10 14:16:01 /* 12.857 -90.719, 99.59446; 15 min */ 93/04/10 14:21:00 /* 12.849 -90.709, 99.59792 */to 93/04/10 14:46:01 /* 12.808 -90.658, 99.61529; 25 min */ 93/04/10 14:51:02 /* 12.799 -90.647, 99.61877 */to 93/04/10 15:16:00 /* 12.758 -90.596, 99.63611; 25 min */ 93/04/10 15:21:01 /* 12.750 -90.586, 99.63959 */to 93/04/10 15:36:01 /* 12.726 -90.555, 99.65001; 15 min */ 93/04/10 15:41:00 /* 12.718 -90.545, 99.65347 */to 93/04/10 16:21:00 /* 12.654 -90.463, 99.68125; 40 min */ 93/04/10 16:26:01 /* 12.645 -90.453, 99.68473 */to 93/04/10 16:26:01 /* 12.645 -90.453, 99.68473; 0 min */ 93/04/10 16:31:02 /* 12.637 -90.443, 99.68822 */to 93/04/10 17:15:59 /* 12.566 -90.353, 99.71943; 45 min */ 93/04/10 17:21:01 /* 12.558 -90.343, 99.72293 */to 93/04/10 17:26:02 /* 12.550 -90.332, 99.72641; 5 min */ 93/04/10 17:31:00 /* 12.540 -90.319, 99.72986 */to 93/04/10 17:51:02 /* 12.501 -90.261, 99.74377; 20 min */ 93/04/10 17:56:00 /* 12.491 -90.246, 99.74722 */to 93/04/10 18:16:01 /* 12.454 -90.184, 99.76112; 20 min */ 93/04/10 18:21:00 /* 12.445 -90.168, 99.76458 */to 93/04/10 18:26:01 /* 12.436 -90.152, 99.76807; 5 min */ 93/04/10 18:31:02 /* 12.427 -90.135, 99.77155 */to 93/04/10 18:56:02 /* 12.382 -90.053, 99.78891; 25 min */ 93/04/10 19:01:00 /* 12.371 -90.038, 99.79236 */to 93/04/10 19:06:02 /* 12.361 -90.023, 99.79586; 5 min */ 93/04/10 19:11:03 /* 12.350 -90.007, 99.79934 */to 93/04/10 19:26:01 /* 12.318 -89.963, 99.80973; 15 min */ 93/04/10 19:31:01 /* 12.307 -89.948, 99.81321 */to 93/04/10 19:56:00 /* 12.252 -89.874, 99.83056; 25 min */ 93/04/10 20:01:01 /* 12.241 -89.859, 99.83404 */to 93/04/10 20:01:01 /* 12.241 -89.859, 99.83404; 0 min */ 93/04/10 20:06:01 /* 12.230 -89.844, 99.83751 */to 93/04/10 20:37:11 /* 12.158 -89.755, 99.85916; 31 min */ 93/04/10 20:42:12 /* 12.147 -89.740, 99.86264 */to 93/04/10 21:12:11 /* 12.075 -89.656, 99.88346; 30 min */ 93/04/10 21:17:09 /* 12.064 -89.641, 99.88691 */to 93/04/10 21:22:11 /* 12.053 -89.626, 99.89041; 5 min */ 93/04/10 21:27:12 /* 12.042 -89.611, 99.89389 */to 93/04/10 21:47:11 /* 11.996 -89.552, 99.90777; 20 min */ 93/04/10 21:52:11 /* 11.985 -89.538, 99.91124 */to 93/04/10 22:02:12 /* 11.961 -89.509, 99.91819; 10 min */ 93/04/10 22:07:11 /* 11.949 -89.494, 99.92166 */to 93/04/10 22:22:12 /* 11.914 -89.452, 99.93208; 15 min */ 93/04/10 22:27:11 /* 11.902 -89.438, 99.93554 */to 93/04/10 22:47:12 /* 11.853 -89.381, 99.94944; 20 min */ 93/04/10 22:52:12 /* 11.840 -89.367, 99.95292 */to 93/04/10 22:57:11 /* 11.828 -89.353, 99.95638; 5 min */ 93/04/10 23:02:11 /* 11.815 -89.339, 99.95985 */to 93/04/10 23:27:11 /* 11.753 -89.269, 99.97721; 25 min */ 93/04/10 23:32:11 /* 11.740 -89.255, 99.98068 */to 93/04/10 23:32:11 /* 11.740 -89.255, 99.98068; 0 min */ 93/04/10 23:37:12 /* 11.727 -89.242, 99.98417 */to 93/04/10 23:57:12 /* 11.681 -89.184, 99.99806; 20 min (end time range) */