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SEED - how everything comes together - Part II

SEED - how everything comes together - Part II. GETTING SEED DATA FROM PASSCAL EXPERIMENTS TO THE DATA MANAGEMENT CENTER DMC. IRIS/PASSCAL DATA/SOFTWARE GROUP. PURPOSE.

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SEED - how everything comes together - Part II

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  1. SEED - how everything comes together - Part II GETTING SEED DATA FROM PASSCAL EXPERIMENTS TO THE DATA MANAGEMENT CENTER DMC IRIS/PASSCAL DATA/SOFTWARE GROUP

  2. PURPOSE Describe the data flow for the submission of SEED data from PASSCAL experiments to IRIS/PASSCAL for QC/delivery to the Data Management Center (DMC) using ANTELOPE (BRTT)

  3. CONTENT • Pre and post experiment requirements. • Installing and updating antelope • Building the Database • Data Reduction and Timing Quality control • Populating the Antelope Database • Create the dataless SEED • Send Data to IRIS/PASSCAL

  4. Pre- and Post-Experiment Requirements • Network code request: http://www.fdsn.org/getcode.html • Mobilization form: http://www.iris.edu/stations/mob.htm • Demobilization form: http://www.iris.edu/stations/demob.htm

  5. ANTELOPEhttp://www.brtt.com • Requesting antelope • Installing and Updating • License • Verifying installation • Setting the environment • Patching

  6. Data Reduction • Directory structure set up • Raw_data • seed/ • response/ • Conversion to mseed • RT130 - ref2mseed • Q330 - miniseed2days • Verification of Data Quality • Timing • Parameters, boom position, SOH, etc • Time corrections - Quality Control

  7. FIXING THE HEADERS • Fixhdr - python • GUI • Batch_mode • Fix_miniseed - antelope Example: # Header Changes # stat:chan:loc:net:sps stat:chan:loc:net hdrlist{ 01053:1C4::XX:40.0 SITE:BHZ::PI 01053:1C5::XX:40.0 SITE:BHN::PI 01053:1C6::XX:40.0 SITE:BHE::PI } net_sta_chan_loc &Tbl { XX_Q0453_BHZ_01 PI_B1_BHZ_01 XX_Q0453_BHN_01 PI_B1_BHN_01 XX_Q0453_BHE_01 PI_B1_BHE_01 }

  8. Populating the Database sta NM27 34.3857 -106.524 1.870 B1 time 01/19/2005 00:00:00 net XK ristra1.5 datalogger dm24 S0270 sensor cmg3t 0 3C7100 axis Z 0 0 - 1 1 axis N 0 90 - 2 1 axis E 90 90 - 3 1 samplerate 25sps channel Z BHZ 30 channel N BHN 31 channel E BHE 32 samplerate 1sps channel Z LHZ 00 channel N LHN 01 channel E LHE 02 add sta UT53 37.346 -110.3308 1.291 B3 time 06/09/2004 00:00:00 datalogger dm24 S0269 sensor cmg3t 0 3C2200 axis Z 0 0 - 1 1 axis N 0 90 - 2 1 axis E 90 90 - 3 1 samplerate 25sps channel Z BHZ 30 channel N BHN 31 channel E BHE 32 Close NM27 12/31/2005 23:59:59 Close UT53 12/31/2005 23:59:59 • Create a dbbuild batch

  9. 2. Building the Antelope database > dbbuild -b db_name batch_file_name 3. View the database > dbe db_name 4. Adding waveforms to the database RT130 - minisee2days -d Q330 - miniseed2db 5. Verify the integrity of your database > dbverswf -dtu db_name > dbverify -tj db_name

  10. The Dataless 1. Create the dataless : > mk_dataless_seed db_name • Rename the dataless by convention: NN.YY.dbname.YYYYJJJHHMM.dataless Where: NN is your network code YY is the year of your data YYYYJJJHHMM is the approximate time the file was created > mv db_name_dataless_seed PI.04.db_name.20042082000.dataless • Test the dataless - seed2db > seed2db PI.04.db_name.20042082000.dataless

  11. Sending data to IRIS/PASSCAL 1. Packing for IRIS/PASSCAL > gui_DoFTP or con_Do_FTP

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