Level 4 data (velocity profilers)
Page status: Draft | |
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Author(s): | Cynthia |
Reviewer(s): | |
Comment: |
This will dictate the data required at the final processing level, where we store the estimated dissipation estimates [math]\displaystyle{ \varepsilon }[/math] along with quality metrics.
Dimensions
Short name | Standard name | Dimensions | Comments |
---|---|---|---|
TIME | time | TIME | Units in Days since 1950-01-01T00:00:00Z. Provide a bounds attribute to designate the variable containing the limits of each segment (see CF-compliant example). |
R_DIST | distance_from_sensor_along_beams | R_DIST | Along-beam bin centre distance (in meters) from the transducer |
N_BEAM | unique_identifier_for_each_beam | N_BEAM | Array of 1 to number of beams (3 to 5 typically) |
Optional dimensions for 5-beam ADCP | |||
R_DIST5 | distance_from_sensor_along_beam_5 | R_DIST5 | Along-beam bin centre distance (in meters) from the transducer for the 5th vertical beam |
Variables
Short name | Standard name | Dimensions | Comment |
---|---|---|---|
EPSI | specific_turbulent_kinetic_energy_dissipation
_in_water |
TIME, R_DIST, N_BEAM | Dissipation rate of turbulent kinetic energy per unit mass of water [W/kg] estimated from individual beams. |
EPSI_FINAL | specific_turbulent_kinetic_energy_dissipation
_in_water |
TIME, R_DIST | Final dissipation rate of turbulent kinetic energy per unit mass of water (beam-averaged). best to state cell_methods attribute to indicate what was averaged e.g., "cell_methods= N_BEAM:mean" for averages across beams. |
C2 | constant_used_in_the_second_order_structure_function | Scalar [1 value] | This constant appears when estimating the dissipation rate of turbulent kinetic energy from the regression coefficients. |
Quality-control metrics | |||
EPSI_FLAGS | specific_turbulent_kinetic_energy_dissipation_
in_water_status_flags |
TIME, R_DIST, N_BEAM | To be linked, when boolean flags defined |
EPSI_CI_HIGH | specific_turbulent_kinetic_energy_dissipation_
in_water_high_confidence_limit |
TIME, R_DIST, N_BEAM | Specify how error was computed. |
EPSI_CI_LOW | specific_turbulent_kinetic_energy_dissipation_
in_water_low_confidence_limit |
TIME, R_DIST, N_BEAM | Specify how error was computed. |
R_MAX | TIME, R_DIST, N_BEAM | help! | |
REGRESSION_COEFF_A0 | TIME, R_DIST, N_BEAM | help! | |
REGRESSION_COEFF_A1 | TIME, R_DIST, N_BEAM | help! | |
REGRESSION_R2 | TIME, R_DIST, N_BEAM | help! | |
REGRESSION_N | structure_function_regression_number_of_observations | TIME, R_DIST, N_BEAM | Note the CF-compliant standard name modifier "number_of_observations" |
Optional dimensions for 5-beam ADCP | |||
Enter variables here or create a footnote (note that N_BEAM disappears as a dimension for the 5th beam) | TIME, R_DIST5 | ||
[math]\displaystyle{ \dagger\dagger }[/math] Variable required only when measuring in bursts e.g., 18 min of continuous measurements every hour. |
Group attributes (metadata)
This section describes attributes that may provide additional information about how the data was processed and manipulated at this stage.
Attribute name | Purpose | Suggested content |
---|---|---|
processing_level | Boilerplate about the content of the NetCDF group. |
|
dll_fitting_method | statistical technique used for fitting the spectra. | Examples include:
???? |
comment (optional) | Any additional information pertinent to other users who test their algorithms against the file. |
Return to Level 3 structure function
Go back to the beginning Dataset requirements for ADCP structure function