Shear probes: Difference between revisions
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The shear probe group addresses best practices in obtaining dissipation rate estimates from shear probes using a platform-independent approach. Our recommendations are applicable for measurements from probes attached to e.g., conventional gravity-driven vertical profilers, gliders, AUVs, or autonomous self-propelled floats. | The shear probe group addresses best practices in obtaining dissipation rate estimates from shear probes using a platform-independent approach. Our recommendations are applicable for measurements from probes attached to e.g., conventional gravity-driven vertical profilers, gliders, AUVs, or autonomous self-propelled floats. | ||
# [[Flow chart for shear probes |Flow chart]] | # [[Flow chart for shear probes |Flow chart]] for data processing | ||
# [[Dataset requirements for shear probes | Dataset requirements]] | # [[Dataset requirements for shear probes | Dataset requirements]] | ||
# [[Benchmark datasets for shear probes | Benchmark datasets]] | # [[Benchmark datasets for shear probes | Benchmark datasets]] | ||
Revision as of 20:08, 9 November 2021
Welcome to the shear probe group!
The shear probe group addresses best practices in obtaining dissipation rate estimates from shear probes using a platform-independent approach. Our recommendations are applicable for measurements from probes attached to e.g., conventional gravity-driven vertical profilers, gliders, AUVs, or autonomous self-propelled floats.
- Flow chart for data processing
- Dataset requirements
- Benchmark datasets
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