# 0 "" # 0 "" # 0 "" # 1 "/usr/include/stdc-predef.h" 1 3 4 # 17 "/usr/include/stdc-predef.h" 3 4 # 2 "" 2 # 1 "" # 10 "" ! File: m_obs.F90 ! ! Created: 6 Feb 2008 ! ! Last modified: 21 Feb 2008 ! ! Author: Pavel Sakov* ! NERSC ! ! Purpose: Generic code to deal with observations. ! ! Description: This module contains the following functions and subroutines: ! - obs_setobs ! reads the observations into allocatable array obs(nobs) ! of type(measurement) ! - obs_prepareobs ! conducts state-dependent pre-processing of observations ! - obs_prepareuobs ! conducts state-dependent pre-processing of observations ! of a given type ! It also contains the following data: ! - obs ! allocatable array of type(measurement) ! - nobs ! number of observations (may differ from the size of the ! array) ! ! * This file contains some modified code of unknown origin ! from EnKF package. In particular, the code here supersedes ! the code from: ! m_get_nrobs_d.F90 ! m_get_obs_d.F90 ! ! Modifications: ! 09/11/2012 Geir Arne Waagbo: ! -- Added support for OSISAF ice drift obs ! 29/07/2010 PS: ! -- modified obs_QC(). The maximal increment now does not go to ! 0 as the innovation increases, but rather is limited by ! KMAX * sigma_ens ! 29/06/2010 PS: ! -- added obs_QC() ! 26/02/2008 PS: ! -- put "obs" and "nobs" as public data in this module module m_obs use qmpi use mod_measurement use m_uobs use m_insitu implicit none ! ! public stuff ! integer, public :: nobs = -1 type(measurement), allocatable, dimension(:), public :: obs public obs_readobs public obs_prepareobs public obs_QC ! ! private stuff ! private obs_testrange integer, parameter, private :: STRLEN = 512 real, parameter, private :: TEM_MIN = -2.0d0 real, parameter, private :: TEM_MAX = 50.0d0 real, parameter, private :: SAL_MIN = 2.0d0 real, parameter, private :: SAL_MAX = 40.0d0 real, parameter, private :: SSH_MIN = -3.0d0 real, parameter, private :: SSH_MAX = 3.0d0 real, parameter, private :: ICEC_MIN = 0.0d0 real, parameter, private :: ICEC_MAX = 0.999d0 ! [FM] Changed from 0.996 to 0.999 real, parameter, private :: RFB_MIN = 0.0d0 ! FM 2020 real, parameter, private :: RFB_MAX = 10.0d0 real, parameter, private :: VT_I_MIN = 0.0d0 ! FM 2020 real, parameter, private :: VT_I_MAX = 10.0d0 real, parameter, private :: UVICE_MIN = -100.0 real, parameter, private :: UVICE_MAX = 100.0 private obs_prepareuobs, obs_realloc contains ! Obtain observations to be used for assimilation from the file ! "observation.uf". Store the number of observations in "nobs" and the data ! in the array "obs". ! subroutine obs_readobs use m_parameters logical :: exists = .false. type(measurement) :: record integer :: rsize integer :: ios integer :: o CHARACTER(LEN=*), PARAMETER :: & FMT2 = "(f8.4,X,f8.4,X,a8,X,2(f10.5,X),f4.2,X,2(I3,X),I1,X,4(f5.2,X),L,X,2(I3,X),f5.2,X,I8,X,I1)" real :: myX real :: myY !========== TEST ! inquire(iolength = rsize) record ! !open(10, file = 'test.txt', form = 'unformatted',& ! ! access = 'direct', recl = rsize, status = 'old') ! allocate(obs(2)) ! open(10, file = 'observations.txt')!, form = 'unformatted',& ! !access = 'direct', recl = rsize, status = 'old') ! !read(10, *) obs(1) ! ! do o = 1, 2 ! read(10, *) obs(o) ! PRINT *, obs(o) ! end do ! close(10) ! stop !========== if (nobs >= 0) then return end if ! Testing existence of file inquire(file = 'observations.txt', exist = exists) !inquire(file = 'observations.uf', exist = exists) if (.not. exists) then if (master) then print *, 'ERROR: obs_getnobs(): file "observations.txt" does not exist' end if stop end if inquire(iolength = rsize) record open(10, file = 'observations.txt')!, form = 'unformatted',& ! EXPERIMENTAL !open(10, file = 'observations.uf', form = 'unformatted',& ! access = 'direct', recl = rsize, status = 'old')!, form = 'unformatted',& !access = 'direct', recl = rsize, status = 'old') ! END EXPERIMENTAL ! I guess there is no other way to work out the length other than read the ! file in fortran - PS ! o = 1 do while (.true.) read(10, *, iostat = ios) record if (ios /= 0) then nobs = o - 1 exit end if o = o + 1 enddo allocate(obs(nobs)) ! PS - there were problem with using rewind(): g95 reported: ! "Cannot REWIND a file opened for DIRECT access". Therefore reopen. ! close(10) open(10, file = 'observations.txt')!, form = 'unformatted',& ! BEGIN EXPERIMENTAL !open(10, file = 'observations.uf', form = 'unformatted',& ! access = 'direct', recl = rsize, status = 'old') ! -- END EXPERIMENTAL do o = 1, nobs read(10, *) obs(o) call ucase(obs(o) % id) !PRINT *, obs(o) enddo close(10) if (RFACTOR1 /= 1.0d0) then do o = 1, nobs obs(o) % var = obs(o) % var * RFACTOR1 end do end if call uobs_get(obs % id, nobs, master) call obs_testrange end subroutine obs_readobs subroutine obs_testrange integer :: o, uo, nbad real :: dmin, dmax if (master) then print '(a)', ' EnKF: testing range for each type of obs ' end if do uo = 1, nuobs if (trim(unique_obs(uo)) == 'SST' .or. trim(unique_obs(uo)) == 'TEM'& .or. trim(unique_obs(uo)) == 'GTEM') then dmin = TEM_MIN dmax = TEM_MAX elseif (trim(unique_obs(uo)) == 'SAL'& .or. trim(unique_obs(uo)) == 'GSAL') then dmin = SAL_MIN dmax = SAL_MAX elseif (trim(unique_obs(uo)) == 'SLA'& .or. trim(unique_obs(uo)) == 'TSLA'& .or. trim(unique_obs(uo)) == 'SSH') then dmin = SSH_MIN dmax = SSH_MAX elseif (trim(unique_obs(uo)) == 'ICEC') then dmin = ICEC_MIN dmax = ICEC_MAX elseif (trim(unique_obs(uo)) == 'AT_I') then ! [FM] Added as we assimilate total ice conc. (opposed to indiv. category dmin = ICEC_MIN dmax = ICEC_MAX elseif (trim(unique_obs(uo)) == 'RFB') then ! FM added 2020 dmin = RFB_MIN dmax = RFB_MAX elseif (trim(unique_obs(uo)) == 'VT_I') then ! FM added 2021 dmin = VT_I_MIN dmax = VT_I_MAX elseif (trim(unique_obs(uo)) == 'V_ICE'& .or. trim(unique_obs(uo)) == 'U_ICE') then dmin = UVICE_MIN dmax = UVICE_MAX elseif (trim(unique_obs(uo)) == 'U2D_I'& ! [FM] OSISAF 2-day sea ice drift converted to m/s and interpolated onto ORCA .OR. trim(unique_obs(uo)) == 'V2D_I') THEN dmin = UVICE_MIN dmax = UVICE_MAX elseif ((index(trim(unique_obs(uo)),'DX') .gt. 0) & .or. (index(trim(unique_obs(uo)),'DY') .gt. 0)) then ! The type can be DX1,DX2,..,DX5,DY1,..DY5 dmin = UVICE_MIN dmax = UVICE_MAX else dmin = -1.0d6 dmax = 1.0d6 print *, 'ERROR: obs_testrange(): "', trim(unique_obs(uo)), '": unknown type' stop end if nbad = 0 do o = uobs_begin(uo), uobs_end(uo) if (obs(o) % status .and.& (obs(o) % d < dmin .or. obs(o) % d > dmax)) then obs(o) % status = .false. nbad = nbad + 1 end if end do if (master) then print '(a, a, a, i6, a)', ' ', trim(unique_obs(uo)), ': ', nbad, ' outliers' end if end do if (master) then print * end if end subroutine obs_testrange ! Prepare observations before allocating matrices S, D, and A in EnKF(). ! This invloves mainly thinning, superobing, or sorting. ! ! Note that generically this processing can not be completely outsourced ! to the preprocessing stage, at least for in-situ data, because its thinning ! involves reading ensemble members for layer depth information. ! subroutine obs_prepareobs() implicit none integer :: iuobs if (master) then print '(a)', ' EnKF: preparing observations' end if do iuobs = 1, nuobs call obs_prepareuobs(trim(unique_obs(iuobs))) end do ! calculate again the number of observation of each type (that could change ! in prepare_obs) call uobs_get(obs % id, nobs, master) end subroutine obs_prepareobs ! Prepare (thin, superob) observations of type "obstag". ! subroutine obs_prepareuobs(obstag) character(*), intent(in) :: obstag character(STRLEN) :: fname if (trim(obstag) == 'SAL' .or. trim(obstag) == 'TEM' .or.& trim(obstag) == 'GSAL' .or. trim(obstag) == 'GTEM') then call insitu_prepareobs(trim(obstag), nobs, obs) if (master) then write(fname, '(a, ".nc")') trim(obstag) print *, 'Writing "', trim(obstag), '" obs to be assimilated to "',& trim(fname), '"' call insitu_writeprofiles(fname, trim(obstag), nobs, obs); end if else ! do nothing for obs of other types for now end if call obs_realloc end subroutine obs_prepareuobs subroutine obs_realloc() type(measurement), allocatable :: newobs(:) if (nobs < 0 .or. nobs == size(obs)) then return end if allocate(newobs(nobs)) newobs = obs(1 : nobs) deallocate(obs) allocate(obs(nobs)) obs = newobs deallocate(newobs) end subroutine obs_realloc subroutine obs_QC(m, S) use m_parameters implicit none integer :: m real :: S(nobs, m) integer :: nmodified(nuobs) real :: so(m), smean, svar integer :: o, uo real :: ovar, inn, newovar if (master) then print *, 'Starting generic observation QC' end if nmodified = 0 do uo = 1, nuobs do o = uobs_begin(uo), uobs_end(uo) so = S(o, :); smean = sum(so) / m ! must be 0... svar = sum((so - smean) ** 2) / real(m - 1) ovar = obs(o) % var inn = obs(o) % d - smean obs(o) % var = sqrt((svar + ovar) ** 2 +& svar * (inn / KFACTOR) ** 2) - svar if (svar > 0 .and. obs(o) % var / ovar > 2.0d0) then nmodified(uo) = nmodified(uo) + 1 end if end do end do if (master) then do uo = 1, nuobs print *, ' ', trim(unique_obs(uo)), ':' print *, ' # of observations:', uobs_end(uo) - uobs_begin(uo) + 1 print *, ' (of them) substantially modified:', nmodified(uo) end do end if end subroutine obs_QC end module m_obs