Quality control coding: Difference between revisions

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The reasons for a failure can be decoded by breaking the value of Q down to its powers of 2.
The reasons for a failure can be decoded by breaking the value of Q down to its powers of 2.


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return to [[Flow chart for shear probes]]


[[Category: Shear probes]]
[[Category: Shear probes]]

Revision as of 10:36, 1 February 2023

[In progress]


Shear-probe quality-control flags

The Q (quality control) flags associated with shear-probe measurements are bitwise flags with boolean values which are CF compliant. More information available here: https://mplnet.gsfc.nasa.gov/about-flags

Every dissipation estimate from every probe must have Q flag. The numerical values of the Q flags are as follows:

Flag Mask Bit Flag Meaning Example threshold value Ex: True =1 / False =0 Ex: Q value
1 Bit 0 if FOM > FOM_limit 2 0 0
2 Bit 1 if despike_fraction > despike_fraction_limit 40% 0 0
4 Bit 2 log(e_max)-log(e_min)|> diss_ratio_limit X \sigma_{\ln\varepsilon} N/A 1 4
8 Bit 3 if despike_iterations > despike_iterations_limit To be confirmed 0 0
16 Bit 4 if variance resolved less than a threshold 50% 1 16
32 Bit 5 manual flag to be defined by user N/A 0 0
64 Bit 6 manual flag to be defined by user N/A 0 0
128 Bit 7 manual flag to be defined by user N/A 0 0
Final Q = 20


The Q flags are combined by their addition. For example a Q value of 20 means that the dissipation estimated failed both dissipation ratio limit test and the resolved variance test. A value of 255 means that all tests failed. The reasons for a failure can be decoded by breaking the value of Q down to its powers of 2.


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