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SCT
Cristian Lussana edited this page Mar 24, 2021
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Test based on the spatial analysis of deviations between observations and the spatial trend in a region. The spatial analysis method considered is Optimal Interpolation (OI).
Around each observation, two circular regions are considered. An outer circle and an inner circle, both centered on the centroid. The outer circle is used to compute the spatial trend. The inner circle is used to compute the statistics used in the OI-based test. Bad observations are those that deviate too much with respect to the statistics computed through the neighbours.
Returned values are: the p-vector of the quality flags
| flag | description |
|---|---|
| -999 | missing flag (observation not checked) |
| 0 | good observation |
| 1 | bad observation |
| 11 | isolated observation, it is the only observation inside the inner circle |
| 12 | isolated observation, less than num_min_outer observations inside outer circle |
The list of parameters is (type vector = it is possible to specify a sequence of buddy checks):
| parameter | description | type |
|---|---|---|
| sct | do it, true or false | logical |
| sct.code | code identifying bad observation | scalar |
| i.sct | number of repetitions of the entire sequence of checks | scalar |
| break.sct | break the loop over the checks if less than this number of observations has been flagged | scalar |
| transf.sct | transform values | scalar |
| doit.sct | specify on a provider basis if the observations have to be tested (0=no; 1=yes) | M-vector |
| prio.sct | specify on a provider basis the priorities the observations have (the smaller the number, the higher the piority) | M-vector |
| inner_radius.sct | radius (m) of the inner circle | N-vector |
| outer_radius.sct | radius (m) of the outer circle | N-vector |
| tpos.sct | threshold when the observed value is greater than the spatial trend | (N*M)-vector |
| tneg.sct | threshold when the observed value is smaller than the spatial trend | (N*M)-vector |
| eps2.sct | relative precision | (N*M)-vector |
| background_elab_type.sct | background elaboration | N-vector |
| num_min_outer.sct | minimum number of observations required inside the outer circle | N-vector |
| num_max_outer.sct | maximum number of observations used | N-vector |
| num_min_prof.sct | background elaboration | N-vector |
| min_elev_diff.sct | background elaboration | N-vector |
| min_horizontal_scale.sct | lower limit for the horizontal decorrelation length scale in OI correlation function | N-vector |
| max_horizontal_scale.sct | lower limit for the horizontal decorrelation length scale in OI correlation function | N-vector |
| kth_closest_obs_horizontal_scale.sct | horizontal decorrelation length scale in OI correlation function is the average distance between an observation location and the k-th closest location | N-vector |
| vertical_scale.sct | vertical decorrelation length scale in OI correlation function | N-vector |
Notes:
- N-vectors. where N is the number of buddy checks composing the sequence of checks.
- M-vectors. where M is the number of providers.
- (N*M)-vectors. for each buddy check in the sequence and for each provider, specify one value.
- doit.sct. one value for each provider. If only one value is specified, it is assumed it is the same for all providers.
- prio.sct. one value for each provider. If only one value is specified, it is assumed it is the same for all providers.
- tpos(tneg).sct. one value for each pair provider/test. If only one value is specified, it is assumed it is the same for all providers.
- eps2.sct. ratio between observation error variance and background error variance. One value for each pair provider/test. If only one value is specified, it is assumed it is the same for all providers.
- other vectors, if just one scalar value is passed, then it is usually recycled for all elements.
#!/bin/bash
#==============================================================================
export TITANR_PATH=/home/cristianl/projects/titanlab/R/functions
../titan.r --input.files data/privateObs_20180326T08Z.txt data/kdvh_Norway_wmo_2018032608.txt data/kdvh_Norway_nowmo_nomet_2018032608.txt data/kdvh_Norway_nowmo_met_2018032608.txt data/smhi_Sweden_2018032608.txt --output.file ~/data/out.txt --config.files ini/input.ini ini/test_titan.ini ini/buddy.ini ini/fgt.ini ini/sct_resistant.ini ini/sct_fg.ini --fg.files ini/fg_det.ini ini/fg_ens.iniconf <- list(
# M = 5 observation providers
#
#------------------------------------------------------------------------------
sct = F,
sct.code = 5,
transf.sct = F,
i.sct = 10,
break.sct = 0,
# M vectors ((either 1 value or M)
doit.sct = 1,
prio.sct = c(4,1,3,2,1),
# N = 2 sct checks (either 1 value or N)
inner_radius.sct = c( 10000, 20000),
outer_radius.sct = c( 30000, 60000),
background_elab_type.sct = "VerticalProfileTheilSen",
num_min_outer.sct = 3,
num_max_outer.sct = 50,
num_min_prof.sct = 5,
min_elev_diff.sct = 10,
min_horizontal_scale.sct = 1000,
max_horizontal_scale.sct = 25000,
kth_closest_obs_horizontal_scale.sct = 3,
vertical_scale.sct = 200,
# M * N (either 1 value or M*N)
eps2.sct = 0.5,
tpos.sct = 2,
tneg.sct = 2
)Copyright (C) 2021 MET Norway. Titan is licensed under GPL version 3 or (at your option) any later version.