# # mgest_def.conf: mgest default options # history: 2013/04/01 1.1 new # 2013/09/16 1.2 sat-model_srp_*=edby # 2015/12/07 1.3 add BeiDou parameter # 2016/09/27 1.4 change meas-slip_EWL:5.0->1.5 # 2017/02/01 1.5 change oinfo-coord ,ifile-sta_f ,ifile-ant and ifile-pos (IGS08 -> IGS14) # 2021/12/21 1.6 change oinfo-coord ,ifile-pos (IGS14 -> IGb14) # 2022/03/24 1.7 add ifile-comment # 2022/06/30 1.8 change ifile-ant:igs14.atx -> igs14_2218.atx(#865) # 2022/08/30 1.9 change ifile-ant:igs14_2218.atx -> igs14_2223.atx # 2022/09/12 1.10 add sat-model_erp_X,sat-model_thrust_X (X:1-5) # add const-trf_r,const-trf_t,const-trf_s,sta-mc_weight # 2022/10/18 1.11 add sta-datum_def # 2022/10/28 1.12 change ifile-ant:igs14_2223.atx -> igs14_2233.atx # 2022/11/07 1.13 change oinfo-coord ,ifile-pos (IGb14 -> IGS20) # change ifile-ant:igs14_2233.atx -> igs20_2233.atx # change ifile-sta_f:sta_IGS14.txt -> sta_IGS20.txt # add oinfo-comment2, oinfo-agency # 2022/12/12 1.14 change ifile-ant:igs20_2233.atx -> igs20_2239.atx # 2023/02/02 1.15 change ifile-ant:igs20_2239.atx -> igs20_2247.atx # 2023/08/24 2.00 change ifile-ant:igs20_2247.atx -> igs20_2274.atx # 2023/09/27 2.01 change meas-LC -> meas-LC_XXX # add ifile-hfeop # 2024/02/16 2.02 add estp-bias_bd3,const-eoput1m # change meas-LC_XXX # 2024/03/05 2.03 add sat-model_shadow,sat-model_apr_X,ifile-estsrp # ifile-jbw,ifile-opehistory,ifile-angp,ofile-acc # amb-opt # 2024/09/06 2.04 add ifile-psd,ifile-disco,ifile-season # const-satant_X (X:1-5) # 2024/09/26 2.05 change meas-LC_bds: B1B2 -> B1B3 # 2025/02/04 2.06 change ifile-ant, oinfo-comment2: igs20_2317 -> igs20_2350 # change some parameters due to using various ver. MADOCA and configs # meas-LC_bds: B1B3 -> B1B2, comment out ifile-psd # 2025/03/06 2.07 delete const-eoput1m # 2025/04/23 2.08 change ifile-ant, oinfo-comment2: igs20_2350 -> igs20_2361 # 2025/08/25 2.09 change sat-tint_emp: 12 -> 24 # ifile-ant, oinfo-comment2: igs20_2361 -> igs20_2375 # oinf-coord, ifile-pos: IGS20 -> IGb20 # ifile-sta_f: %{MADOCA_DIR}/data/sta/sta_IGS20.txt -> (blank) # set oinfo-contact: Z-MADOCA.OP@ml.jaxa.jp # 2025/12/08 2.10 change ifile-ant, oinfo-comment2:igs20_2375.atx -> igs20_2388.atx # 2026/01/06 2.11 change Reference Frame # oinf-coord: IGb20 -> IGc20 # ifile-pos : IGb20.snx -> IGc20.ssc # 2026/01/29 2.12 change ifile-ant, oinfo-comment2:igs20_2388.atx -> igs20_2405.atx (QZS, BDS-3 new model) # meas-LC_qzs: L1L2 -> L1L5 (already changed in each post-process conf files) # meas-LC_bd3: B1B3 -> B1CB2a (same as above) # 2026/02/17 2.13 change ifile-otl, oinfo-comment2: FES2004 -> FES2014b(for final prod. file) # ifile-otide: fes2004_Cnm-Snm.dat -> fes2014b.v1.Cnm-Snm_Om1+Om2C20_without_S1_wave.POT_format.txt # ifile-psd: comment-outed -> (blank) (use only step1 products with IGc20.snx) # added out-cmc_opt: on, ifile-cmc (FES2014b) # time-epoch =2011/1/1 0:00:00 # estimation epoch time (Y/m/d h:m:s GPST) time-tint =300 # estimation interval (s) time-tspan =24 # estimation span (hrs) time-tpred =0 # orbit predition span (hrs) time-toverlap =0 # estimation overlap span (hrs) sys-navsys =1 # satellite system (1:gps+4:glo+8:gal+16:qzs) sys-unhealthy =off # include unhealthy satellite (0:off,1:on) sys-excsats = # excluded satellites (separated by ' ') sys-incsats = # included satellites (separated by ' ') estp-satobt_1 =est # estimation of sat orbit gps (0:fix,1:est) estp-satobt_2 =est # estimation of sat orbit glo (0:fix,1:est) estp-satobt_3 =est # estimation of sat orbit qzs (0:fix,1:est) estp-satobt_4 =est # estimation of sat orbit gal (0:fix,1:est) estp-satobt_5 =est # estimation of sat orbit bds (0:fix,1:est) estp-satclk_1 =est # estimation of sat clock gps (0:fix,1:est) estp-satclk_2 =est # estimation of sat clock glo (0:fix,1:est) estp-satclk_3 =est # estimation of sat clock qzs (0:fix,1:est) estp-satclk_4 =est # estimation of sat clock gal (0:fix,1:est) estp-satclk_5 =est # estimation of sat clock bds (0:fix,1:est) estp-stapos =est # estimation of station position (0:fix,1:est) estp-staclk =est # estimation of station clock (0:fix,1:est) estp-statrp =est # estimation of troposphere (0:fix,1:est) estp-eop =est # estimation of eop (0:fix,1:est) estp-gco =fix # estimation of geocenter (0:fix,1:est) estp-amb =est # estimation of ambiguity (0:fix,1:est) estp-bias_glo =fix # estimation of rec bias glo-gps (0:fix,1:est) estp-bias_qzs =fix # estimation of rec bias qzs-gps (0:fix,1:est) estp-bias_gal =fix # estimation of rec bias gal-gps (0:fix,1:est) estp-bias_bds =fix # estimation of rec bias bds-gps (0:fix,1:est) estp-bias_bd3 =fix # estimation of rec bias bd3-gps (0:fix,1:est) estp-niter =3 # number of iteration (0:auto) meas-min_el =10 # elevation mask (deg) meas-min_arc =1200 # min arc length (s) meas-max_gap =300 # max gap to separate arcs (s) meas-err_std =0.003 # std-dev of meas-error constant term (m) meas-err_std_el =0.003 # std-dev of meas-error 1/sin(el) term (m) meas-err_edit =4 # edit level of residuals (sigmas) meas-err_ratio =300 # code/phase error ratio meas-slip_LG =0.08 # cycle-slip threshold of LG jump (m) #meas-slip_LG =0.05 # cycle-slip threshold of LG jump (m) meas-slip_WL =1.5 # cycle-slip threshold of WL jump (m) meas-slip_PC =5.0 # cycle-slip threshold of PC-LC jump (m) meas-slip_EWL =1.5 # cycle-slip threshold of EWL jump (m) meas-LC_gps =L1L2 # linear-combination gps (0:L1L2,1:L1L5) meas-LC_glo =G1G2 # linear-combination glo (0:G1G2,1:G1G3) meas-LC_qzs =L1L5 # linear-combination qzs (0:L1L2,1:L1L5) meas-LC_gal =E1E5a # linear-combination gal (0:E1E5a,1:E1E5b) #meas-LC_bds =B1B3 # linear-combination bds (0:B1B2,1:B1B3) meas-LC_bds =B1B2 # linear-combination bds (0:B1B2,1:B1B3) meas-LC_bd3 =B1CB2a # linear-combination bds (0:B1B3,1:B1CB2a) amb-fix =on # integer ambiguity resolution (0:off,1:on) amb-opt =65 # ambiguity options amb-max_bl =6000 # max baseline length to fix ambiguity (km) amb-max_std =0.1 # max std-dev of ambiguity to fix (m) amb-max_frac =0.25 # max fractional ambiguity to fix (cycle) amb-min_conf =0.9999 # min confidence level to fix ambiguity sat-geop_nmax =12 # degree and order of geopotential sat-geop_opt =15 # geop option (1:solid+2:otide+4:ptide+8:optide) sat-model_ecl =penumbra # eclipse model (0:off,1:umbra,2:penumbra) sat-model_rel =on # relativity accel correction (0:off,1:on) sat-model_relclk=1 # relativity clock correction (1:cyclic+2:j2) sat-model_atm =off # atmosphere model (0:off,1:msis-00) sat-model_shadow =off # satellite shadow model (0:off,1:on) sat-model_srp_1 =edby # srp gps (0:off,1:cann,2:code,3:gspm,4:dby) sat-model_srp_2 =edby # srp glo (0:off,1:cann,2:code,3:gspm,4:dby) sat-model_srp_3 =edby # srp qzs (0:off,1:cann,2:code,3:gspm,4:dby) sat-model_srp_4 =edby # srp gal (0:off,1:cann,2:code,3:gspm,4:dby) sat-model_srp_5 =edby # srp bds (0:off,1:cann,2:code,3:gspm,4:dby) sat-model_apr_1 =0 # a priori model gps (0:off+1:SRP_JBW+2:TRP_JBW+4:ANGP) sat-model_apr_2 =0 # a priori model glo (0:off+1:SRP_JBW+2:TRP_JBW+4:ANGP) sat-model_apr_3 =0 # a priori model qzs (0:off+1:SRP_JBW+2:TRP_JBW+4:ANGP) sat-model_apr_4 =0 # a priori model gal (0:off+1:SRP_JBW+2:TRP_JBW+4:ANGP) sat-model_apr_5 =0 # a priori model bds (0:off+1:SRP_JBW+2:TRP_JBW+4:ANGP) sat-model_emp_1 =on # empirical-accel model gps (0:off,1:on) sat-model_emp_2 =on # empirical-accel model glo (0:off,1:on) sat-model_emp_3 =on # empirical-accel model qzs (0:off,1:on) sat-model_emp_4 =on # empirical-accel model gal (0:off,1:on) sat-model_emp_5 =on # empirical-accel model bds (0:off,1:on) sat-model_att_1 =prec # attitude model gps (0:nominal,1:prec) sat-model_att_2 =prec # attitude model glo (0:nominal,1:prec) sat-model_att_3 =prec # attitude model qzs (0:nominal,1:prec) sat-model_att_4 =prec # attitude model gal (0:nominal,1:prec) sat-model_att_5 =prec # attitude model bds (0:nominal,1:prec) sat-model_drg =off # atmospheric drag model (0:off,1:on) sat-model_clk =white # satellite clock model (0:white,1:gauss) sat-model_erp_1 =off # earth radiation pressure model gps(0:off,1:on) sat-model_erp_2 =off # earth radiation pressure model glo(0:off,1:on) sat-model_erp_3 =off # earth radiation pressure model qzs(0:off,1:on) sat-model_erp_4 =off # earth radiation pressure model gal(0:off,1:on) sat-model_erp_5 =off # earth radiation pressure model bds(0:off,1:on) sat-model_thrust_1 =off # antenna thrust model gps (0:off,1:on) sat-model_thrust_2 =off # antenna thrust model glo (0:off,1:on) sat-model_thrust_3 =off # antenna thrust model qzs (0:off,1:on) sat-model_thrust_4 =off # antenna thrust model gal (0:off,1:on) sat-model_thrust_5 =off # antenna thrust model bds (0:off,1:on) sat-flag_srp_1 =111111100 # flag of estimated srp parameters gps sat-flag_srp_2 =111111100 # flag of estimated srp parameters glo sat-flag_srp_3 =111111100 # flag of estimated srp parameters qzs sat-flag_srp_4 =111111100 # flag of estimated srp parameters gal sat-flag_srp_5 =111111100 # flag of estimated srp parameters bds sat-flag_emp_1 =111000000 # flag of estimated emp-accel parameters gps sat-flag_emp_2 =111000000 # flag of estimated emp-accel parameters glo sat-flag_emp_3 =111000000 # flag of estimated emp-accel parameters qzs sat-flag_emp_4 =111000000 # flag of estimated emp-accel parameters gal sat-flag_emp_5 =111000000 # flag of estimated emp-accel parameters bds sat-flag_drg =0 # flag of estimated drag parameters sat-tint_emp =24 # interval of emp-accel parameters (hrs) sat-tint_drg =1 # interval of drag parameters (hrs) sat-ode_solver =rk4 # ode solver (0:rk4,1:rkf45,2:gragg) sat-ode_step =60 # ode integration step (s) sat-ode_atol =1E-6 # ode absolute tolerance sat-ode_rtol =1E-8 # ode relative tolerance sat-ode_opt =0 # ode options sta-model_pos =static # station position model (0:static,1:kinematic) sta-model_tide =15 # tidal disp. (1:solid+2:otl+4:pole+8:cmc) sta-model_clk =white # receiver clock model (0:white,1:gauss) sta-model_met =gpt # meteorological model (0:off,1:std,2:gpt) sta-model_mapf =gmf # tropos mapping function (0:nmf,1:gmf,2:vmf) sta-model_grad =on # tropos gradient model (0:off,1:on) sta-model_iono =off # 2nd-order ionos model (0:off,1:on) sta-tint_trop =2 # interval of troposphere parameters (hrs) sta-clk_ref = # station for clock reference sta-datum_def =const_pos # datum definition type (0:const_pos,1:mc) sta-mc_weight =off # weight model for minimum constraint qc-max_out =0.5 # max outlier rate to reject satellite/station qc-max_nrms =0 # max normalized-rms to reject satellite/station qc-max_accel =5.0 # max unforced acceleration (1E-9m/s2) const-satpos =100 # constraint to initial satellite position (m) const-satvel =0.01 # constraint to initial satellite velocity (m/s) const-satsrp_1 =0.1 # constraint to initial srp parameters gps const-satsrp_2 =0.3 # constraint to initial srp parameters glo const-satsrp_3 =0.3 # constraint to initial srp parameters qzs const-satsrp_4 =0.3 # constraint to initial srp parameters gal const-satsrp_5 =0.3 # constraint to initial srp parameters bds const-satemp_1 =0.05 # constraint to initial emp-accel params gps const-satemp_2 =0.05 # constraint to initial emp-accel params glo const-satemp_3 =0.05 # constraint to initial emp-accel params qzs const-satemp_4 =0.05 # constraint to initial emp-accel params gal const-satemp_5 =0.05 # constraint to initial emp-accel params bds const-satdrg =1.0 # constraint to initial drag parameters const-satclk =100 # constraint to initial satellite clock (m) const-satant_1 =0.0 # constraint to initial antenna parameters gps const-satant_2 =0.0 # constraint to initial antenna parameters glo const-satant_3 =0.0 # constraint to initial antenna parameters qzs const-satant_4 =0.0 # constraint to initial antenna parameters gal const-satant_5 =0.0 # constraint to initial antenna parameters bds const-stapos =100 # constraint to initial station position (m) const-stapos_f =0.003 # constraint to initial fiducial station pos (m) const-staclk =100 # constraint to initial receiver clock (m) const-staztd =0.3 # constraint to initial ztd (m) const-stagrad =0.01 # constraint to initial gradient (m) const-trf_r =0.0 # constraint to TRF rotation (rad) const-trf_t =0.0 # constraint to TRF translation (m) const-trf_s =0.0 # constraint to TRF scale (parts) const-eopxpyp =1.0 # constraint to initial pole offset (arcsec) const-eoput1 =1E-9 # constraint to initial ut1 (s) const-gco =0 # constraint to initial geocenter (m) const-amb =0 # constraint to initial ambiguity (m) const-prn_clks =0 # process noise of satellite clock (m/sqrt(s)) const-prn_clkr =0 # process noise of receiver clock (m/sqrt(s)) const-prn_ztd =1E-4 # process noise of ztd (m/sqrt(s)) const-prn_grad =1E-6 # process noise of gradient (m/sqrt(s)) out-overlap =off # output overlap results (0:off,1:on) out-cmc_opt =on # (0:off,1:on) oinfo-agency =JAXA # info in output file: agency oinfo-contact =Z-MADOCA.OP@ml.jaxa.jp # info in output file: contact oinfo-coord =IGc20 # info in output file: reference coordinates oinfo-comment1 = oinfo-comment2 =PCV:IGS20_2405 OL/AL:FES2014b NONE YN CLK:CoN ORB:CoN ifile-path = ifile-geop =%{MADOCA_DIR}/data/egm2008_to150_tidefree.txt #ifile-otide =%{MADOCA_DIR}/data/fes2004_Cnm-Snm.dat ifile-otide =%{MADOCA_DIR}/data/fes2014b.v1.Cnm-Snm_Om1+Om2C20_without_S1_wave.POT_format.txt ifile-pleph =%{MADOCA_DIR}/data/lnxp1900p2053.421 ifile-flux = #ifile-otl =%{MADOCA_DIR}/data/FES2004.BLQ ifile-otl =%{MADOCA_HOME}/script/batch/conf/FES2014b_final.blq ifile-p1c1 =%{MADOCA_DATA}/dcb/P1C1.DCB ifile-p2c2 =%{MADOCA_DATA}/dcb/P2C2.DCB ifile-ant =%{MADOCA_DATA}/atx/igs20_2405.atx ifile-sta = ifile-sta_f = ifile-tie = #ifile-obt =%{MADOCA_DIR}/data/obtprm_mdby.txt ifile-obt =%{MADOCA_DIR}/data/obtprm_edby.txt ifile-estsrp = ifile-sp3 = ifile-jbw = ifile-opehistory = ifile-angp = ifile-clk = ifile-pos =%{MADOCA_DIR}/data/IGc20.ssc ifile-trp = ifile-tec = ifile-amb = ifile-eop = ifile-obs = ifile-nav = ifile-comment =%{MADOCA_HOME}/script/batch/conf/comment.txt ifile-hfeop =%{MADOCA_DIR}/lib/hfeop/models/desai_model_jgrb51665-sup-0002-ds01.txt ifile-psd = ifile-disco = ifile-season = ifile-cmc =%{MADOCA_DIR}/data/FES2014b.cmc ofile-path = ofile-obt = ofile-acc = ofile-sp3 = ofile-clk = ofile-pos = ofile-trp = ofile-amb = ofile-eop = ofile-sum = ofile-res = ofile-log = ofile-dump = ofile-work =/home/madoca/tmp/work.bin