ADCP structure function flow chart: Difference between revisions
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The processing of ADCP data to compute [[turbulent kinetic energy dissipation]] rates (<math>\varepsilon</math>) using the structure function technique can be divided into the following steps. The sub-steps include recommendations for deploying the ADCP, collecting, quality-controlling and processing the data to arrive at the <math>\varepsilon</math> estimates. No actual code is provided, rather these are the essential steps to be taken or implemented with your preferred software for pulse-pulse coherent ADCP data. Quality control measures are implemented at two stages: QA1 and QA2. | The processing of ADCP data to compute [[turbulent kinetic energy dissipation]] rates (<math>\varepsilon</math>) using the structure function technique can be divided into the following steps. The sub-steps include recommendations for deploying the ADCP, collecting, quality-controlling and processing the data to arrive at the <math>\varepsilon</math> estimates. No actual code is provided, rather these are the essential steps to be taken or implemented with your preferred software for pulse-pulse coherent ADCP data. Quality control measures are implemented at two stages: QA1 and QA2. [[File:ADCP SF flow chart.png|200px|thumb|Placeholder for full ADCP structure function flow chart]] | ||
# [[Deployment | Deploy ADCP appropriately to collect reliable turbulence data]] | # [[Deployment | Deploy ADCP appropriately to collect reliable turbulence data]] | ||
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Return to [[Velocity profilers| | Return to [[Velocity profilers| Velocity Profilers Welcome Page]] | ||
[[Category:Velocity profilers]] | [[Category:Velocity profilers]] | ||
Latest revision as of 08:35, 25 May 2022
The processing of ADCP data to compute turbulent kinetic energy dissipation rates ([math]\displaystyle{ \varepsilon }[/math]) using the structure function technique can be divided into the following steps. The sub-steps include recommendations for deploying the ADCP, collecting, quality-controlling and processing the data to arrive at the [math]\displaystyle{ \varepsilon }[/math] estimates. No actual code is provided, rather these are the essential steps to be taken or implemented with your preferred software for pulse-pulse coherent ADCP data. Quality control measures are implemented at two stages: QA1 and QA2.
- Deploy ADCP appropriately to collect reliable turbulence data
- Apply quality-control on velocity time series data (QA1)
- Compute structure functions and dissipation estimates
- Apply quality-control on dissipation rates (QA2)
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