A new CTD data set now requires processing. Use the following workflow to properly process the CTD data set. Normally the data set is associated with a mission. The data set might only be a single profile but could be hundreds of profiles; which will impact the length of time required and the possible steps required.
Normally the CTD data is acquired using Sea-Bird Scientific instruments but might also be acquired using RBR instruments or instruments from another manufacturer.
Prep Work
[x] Secured a copy of the cruise report from ARC or chief scientist (if available)
[x] Copied raw CTD data from SRC
[ ] Copied available Autosal salinity data from SRC
[ ] Copied available Winkler dissolved oxygen data from SRC
[x] Latest version of CTDDAP software installed; along with supported version of Sea-Bird data processing software
[x] Latest versions of MATLAB®, R, RStudio, and Python available on Software Center installed
Processing Steps
Step 1 - Compute Calibrations
[ ] Obtained R script templates used for calibrations
[ ] Computed new linear correction for CTD conductivity sensor(s)
[ ] Computed new Soc correction for CTD dissolved oxygen sensor(s)
Step 2 - Apply Calibrations
[x] Copied old CTD configuration files (CON or XMLCON) and updated with revised sensor calibrations
[x] Reprocessed CTD data using CTDDAP and new CON files
[ ] Run Calibration scripts again using corrected QAT data to validate calibration(s) worked
Step 3 - Update Metadata
[x] Ran the MATLAB® script _output_ctd_headerinfo on calibrated ODF files
[x] Opened header.txt in Microsoft Excel
[x] Inspected metadata for required updates
[x] Copied, edited, and ran MATLAB® template for updating metadata
Step 4 - Add Quality Flag Fields and Run Automated Checks
[x] Executed the MATLAB® script _add_qfs_toodf to add quality flag fields to the ODF files and run automated quality control checks
[x] Copied RMarkdown template and updated it for current mission
[x] Knitted RMarkdown file to produce HTML file
[x] Opened HTML file containing profile plots to do a quick visual inspection
Step 5 - Apply pH Calibration
[ ] (if required) Applied pH linear correction if provided by tracer group
Step 6 - Consult with Physical Scientist
[x] Physical scientist given copy of calibrated ODF files
[x] Physical scientist evaluated data quality (e.g. using Temperature-Salinity plots)
[x] Physical scientist provided feedback on data quality
Step 7 - Visually Inspect Data
[x] Ran the MATLAB® script _odfqc to visual inspect CTD profiles one at a time and assign flags to suspect data points
Note: Operator should refer to physical scientist feedback and report produced from automated checking to help make judgements on suspect data points
Step 8 - Make Final Metadata Updates
[x] (if required) Executed a MATLAB® script to do some final updates (e.g. documenting that the secondary sensor data should be used instead of the primary sensor data) to the ODF file metadata
Step 9 - Archive Data and Email Notification
[x] Copied files to SRC
[x] Loaded files into ODF_ARCHIVE database
[x] Notified data archivist and respective data manager
[x] Notified data archivist and respective data manager
yc-hu
commented
2 months ago
Processing Steps
Background
A new CTD data set now requires processing. Use the following workflow to properly process the CTD data set. Normally the data set is associated with a mission. The data set might only be a single profile but could be hundreds of profiles; which will impact the length of time required and the possible steps required.
Normally the CTD data is acquired using Sea-Bird Scientific instruments but might also be acquired using RBR instruments or instruments from another manufacturer.
Prep Work
Processing Steps
Step 1 - Compute Calibrations
Step 2 - Apply Calibrations
Step 3 - Update Metadata
Step 4 - Add Quality Flag Fields and Run Automated Checks
Step 5 - Apply pH Calibration
Step 6 - Consult with Physical Scientist
Step 7 - Visually Inspect Data
Step 8 - Make Final Metadata Updates
Step 9 - Archive Data and Email Notification