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Pre-operational and Operational Oceanographic Programmes PowerPoint Presentation
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Pre-operational and Operational Oceanographic Programmes

Pre-operational and Operational Oceanographic Programmes

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Pre-operational and Operational Oceanographic Programmes

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  1. Quality control and dissemination of real time data - methodology andadvanced available technological tools the Coriolis data centreexperience Gilbert Maudire, Loïc Petit de la Villéon, Catherine MaillardSEAMER 2000

  2. Pre-operational and Operational Oceanographic Programmes • Pre-operational data management TOGA-WOCE-CLIVAR Global Subsurface Data Centre • CORIOLIS-ARGO real-time data processing • Pommier, Pomme • GYROSCOPE (Atlantic) • MFSPP (Mediterranean)

  3. New Questions Asked • Access to observational data of temperature within 12 hours after their production • Access to other types of data within 48 hours within their production • Access to statistics, gridded data, combinations with delayed mode data, graphs, maps and products • Assess a standardised level of quality to the data

  4. Sensors currently producing time data • Lagrangian profilers : PROVOR, APEX.. • XBt, Xctd • Thermosalinographs

  5. CORIOLIS Data Centre • to process European floats • provor • other floats • to combine various in-situ measurements • to insure interoperability with argo data centres • data formats • common quality procedures • real time data exchanges • to gather global data sets for European users Partners : IFREMER, SHOM, IRD (ORSTOM), METEO-FRANCE, CLS-ARGOS

  6. data centre functions Interoperability with argo gts (meteo-france) control data quality controltechnical monitoring of equipments WWW (full data set) data collect mail internetgtscd-rompaper... data base (RDBS)catalogue - archive models (Mercator, Soprane) disseminationpublic / private mailmailing lists productsgraphics and chartsstatisticsanalyses cd-romor other supporton request quality insurance for exploitation hardware & software management - backup

  7. a provor cycle surface drift profile10 hours of argos transmission descending profile10 hours ascending profile5 hours immersion drift profile5 to 15 days

  8. provor incoming data argos internet ifremer cls-argos ads service mail data processing store the message check the address sender generate the cycles activate decoding • internet mail major issues • data processing naturally performed « on the fly » • data integrity (no loss or errors on data) • smtp protocol includes re-transmission in case of trouble • strategic service for ifremer • standard service from telecom operators

  9. quality control • complies with international recommendations • IOC, ICES, MAST • two levels • automatic control • visual control for dubious profiles • gtspp quality flag scale

  10. quality control qc1 qc2

  11. *Provor profiler : <Identificateur flotteur PROVOR> *Float cycle : <n° de cycle> *Descending vertical profile *Date : yyyy-mm-dd hh24:mi (QC=9), Estimated position : <Latitude>, <Longitude> (QC=9) Date Time Pressure Temperature Conductivity Salinity (yyyy-mm-dd) (hh24:mi) (dBar) (°C) (mS/cm) (P.S.U.) 1999/10/07 23:58 2 27.52 44.90 1999/10/08 00:04 56 18.21 44.81 *Ascending vertical profile *Date : yyyy-mm-dd hh24:mi (QC=9), Estimated position : <Latitude>, <Longitude> (QC=9) Date Time Pressure Temperature Conductivity Salinity (yyyy-mm-dd) (hh24:mi) (dBar) (°C) (mS/cm) (P.S.U.) 1999/10/15 10:30 3980 2.52 44.90... 1999/10/15 10:40 2378 5.21 44.81 *Immersion drift *Date : <Heure de fin de descente> Date Time Pressure Temperature Conductivity Salinity (yyyy-mm-dd) (hh24:mi) (dBar) (°C) (mS/cm) (P.S.U) 1999/10/08 04:55 1200 2.22... *Surface drift Date Time Latitude Longitude Position quality Surface temperature (yyyy-mm-dd) (hh24:mi) (HDD MI.mmm) (HDD MI.mmm) (Argos scale) (°C) provordecoded cycle ascii file *Technical status *Probes : Internal time : hh24 :mi Pressure offset : 99.99 dBars Internal pressure : 99.99 dBars CTD drift measurements : 999 *Engineering : Valve motions : Surface : 99, Descending : 99 Pump motions : Surface : xx, Descending : xx, Immersion : xx First stabilization : dd/mm *Data reduction : Descending profile : PRSEP : 9999 dBars, NTS : 9999, ETS : 9.99°C, NCS : 9999, ECS : 9.99 mS/cm NTF : 9999, ETF : 9.99°C, NCF : 9999, ECF : 9.99 mS/cm Ascending profile : PRSEP : 9999 dBars, NTS : 9999, ETS : 9.99°C, NCS : 9999, ECS : 9.99 mS/cm NTF : 9999, ETF : 9.99°C, NCF : 9999, ECF : 9.99 mS/cm *Transmission : Received frames : 9999, complete : 9999, CRC OK : 9999, recombined frames : 9999 *Positionning : Class 1 : 9999, Class 2 : 9999, Class 3 : 9999, Rejected locations: 9999

  12. formats • dissemination • ascii : medatlas/coriolis • binary : netcdf • gts/tesac • others on request (gtspp, tsdc) • data collect • provor, sippican mk12 • gts (bathy, tesac) • gtspp • medatlas/coriolis

  13. www.ifremer.fr/coriolis provor on the web

  14. provor in pommier area

  15. interactive map on the web

  16. provor temperature map

  17. atalante xbt and ts data processing quality control gtsdissemination coriolis data base oracle8derived from toga/woce webinterface atalante mail inmarsat uploading disseminationto models

  18. tables of coriolis data-base temp-vproftvp_station_id tvp_immersion tvp_value tvp_value_qc temp-vprof-headertvh_station_id tvh_profile_qc tvh_level_number tvh_max_level tvh_digitization tvh_validation plateform pl_plateform_code pl_plateform_name pl_plateform_nodc_code pl_plateform_type pl_institution_code provor-config pr_plateform_code pr_type pr_version pr_crc_type pr_cycle_period pr_immersion_drift_period pr_launch_datetime pr_launch_latitude pr_launch_longitude pr_reference_datetime pr_reference_internal_date pr_probe_code pr_experiment_id recorder re_recorder_code re_recorder_description probe pb_probe_code pb_probe_description pb_speed_coef_a pb_speed_coef_b psal-vprofpvp_station_id pvp_immersion pvp_value pvp_value_qc psal-vprof-header pvh_station_id pvh_profile_qc pvh_level_number pvh_max_level pvh_digitization pvh_validation station st_station_id st_station_type st_station_date st_date_qc st_station_latitude st_station_longitude st_position_qc st_ocean st_marsden st_experiment_id st_station_number st_plateform_code st_plateform_motion st_plateform_nodc_flag st_institution_code st_institution_gtspp_flag st_archiving_date st_probe_code st_recorder_code st_archiving_status st_dupliate_flag st_duplicate_station_id st_nature st_qc_status provor_programming pg_plateform_code pg_prog_parameter pg_prog_value cndc-vprofcvp_station_id cvp_immersion cvp_value cvp_value_qc cndc-vprof-headercvh_station_id cvh_profile_qc cvh_level_number cvh_max_level cvh_digitization cvh_validation provor_tech_parametertp_tech_parameter tp_description tp_programing tp_status 2 2 immersion_driftid_plateform_code id_cycle_number id_start_station_code id_end_station_code id_date_time id_date_qc id_latitude id_longitude id_location_qc id_immersion id_immersion_qc id_temperature id_temperature_qc id_conductivity id_conductivity_qc id_salinity id_salinity_qc surface_drift sd_plateform_code sd_cycle_number sd_start_station_code sd_end_station_code sd_datetime sd_date_qc sd_latitude sd_longitude sd_location_class sd_location_qc sd_temperature sd_temperature_qc sd_conductivity sd_conductivity_qc sd_salinity sd_salinity_qc provor_tech_status pg_plateform_code pg_cycle_number pg_prog_parameter pg_prog_value beaconsbc_beacon_code bc_plateform_code

  19. provor cycling cycle period cycle period launching reference date reference date + 1 period argos argos argos cycle 0 does not match the period cycle 1 cycle 2