Shear probes: Difference between revisions
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The processing of shear-probe data can be divided into the following five major steps and these steps apply to data collected with any platform or vehicle. There are many sub-steps to these major steps. The major steps are; | The processing of shear-probe data can be divided into the following five major steps and these steps apply to data collected with any platform or vehicle. There are many sub-steps to these major steps. The major steps are; | ||
# Conversion to physical units. | # Conversion to physical units. | ||
* Determine the speed of profiling of the shear-probe through the water. | |||
* Determine the temperature of the water. | |||
* Convert the shear-probe data samples into physical units | |||
* Convert all other signals per the recommendations of the manufacturer of the sensor or instruments that produce these signals. | |||
# Profile selection. | # Profile selection. | ||
# Choosing the processing parameters. | # Choosing the processing parameters. | ||
# Dissipation rate estimation. | # Dissipation rate estimation. | ||
# Applying quality-control metrics. | # Applying quality-control metrics. | ||
Revision as of 13:52, 22 April 2021
TESTING....
Flow chart for dissipation estimates using shear probes
The processing of shear-probe data can be divided into the following five major steps and these steps apply to data collected with any platform or vehicle. There are many sub-steps to these major steps. The major steps are;
- Conversion to physical units.
* Determine the speed of profiling of the shear-probe through the water. * Determine the temperature of the water. * Convert the shear-probe data samples into physical units * Convert all other signals per the recommendations of the manufacturer of the sensor or instruments that produce these signals.
- Profile selection.
- Choosing the processing parameters.
- Dissipation rate estimation.
- Applying quality-control metrics.
