1Run 20010-1405 Analysis center: GSFC -- NASA Goddard Space Flight Center Analyst: David Gordon ( David.Gordon-1@nasa.gov ) Machine: gs690-gs61a-gsvgsfc-ivscc-server1.gsfc.nasa.gov x86_64 Linux 3.10.0-957.12.2.el7.x86_64 Executables: /space/nusolve/bin Solve initials: DG Spool format: SgLib-0.6.4 (Tir-na Nog'th) Local time: 2020.01.10-09:05:22 Correlator type: MK4 Mark-3 db_name: Data base $19DEC30XA Ver 3 Matrix Condition Number = 3.013636975753419E+10 Listing_Options: CRES_EMULATION NO BASELINES NO MINIMUM NO Listing_Options: MAPPED_EOP_OUTPUT NO SEG_OUTPUT NO APRIORI_ZENDEL NO Listing_Options: NRD_TABLE YES CHI_TABLE NO SRC_STAT PRE2004 SEG_STYLE PRE2005 SgLib release : 2019 Dec 13 Flyby Station Cals: DB Station Cals: | DB Non-station Cals: | Atmosphere Partial: -------------------------------------------------------------------------------------------------- FORTLEZA:NMFDRFLY cable GION | Pol Tide | NMFWTFLY MATERA :NMFDRFLY GION | WobXCont | NYALES20:NMFDRFLY cable GION | WobYCont | SEJONG :NMFDRFLY GION | EarthTid | WETTZ13N:NMFDRFLY GION | Ocean | | UT1Ortho | | XpYpOrth | | XpYpLib | | UT1Libra | | OPTLCont | -------------------------------------------------------------------------------------------------- CALC Version: 11.02 SgLib-0.6.4 (Tir-na Nog'th) 19DEC30SA 3 NOT IN SOLUTION Met Statistics: Temperature Pressure Humidity Station average rms average rms average rms FORTLEZA MET 25.5 0.9 1006.4 0.9 95.8 5.3 MATERA MET 3.4 3.4 970.7 0.6 80.3 11.3 NYALES20 MET -16.2 1.9 985.5 0.4 69.9 4.9 SEJONG MET -6.0 1.5 1003.2 0.4 66.9 11.5 WETTZ13N MET 1.6 0.9 957.9 1.0 47.4 9.3 Run 20010-1405 2143 Observation Pairs Available Session started on: 2458848.208588 2019.12.30 17:00:22.000 UTC Actual duration: 86317.000 sec 00 23:58:37.000 sec Solution type: Group delay X/S combination Data Type Number of Weighted RMS Normalized RMS Chi Square Observations Residual Residual (precis) Used Delay 1792 29.850 ps 1.00 0.9997 Rate 0 0 fs/s 0.00 0.0000 Combined 0 0.00 0.0000 ----------------------------------------------------------------------- Used quality_code_limit: 5 Number of potentially recoverable observations: 1901 Number of potentially good observations with QC 5-9: 1901 Number of used observations: 1792 ( 94.27%) Number of suppressed observations: 109 ( 5.73%) ----------------------------------------------------------------------- Baseline Statistics Baseline # W.Obs W.RMS Del N.R.D. N.R.D. W.RMS Rate N.R.R. D.RW R.RW used/recov ps standard ( 15ps+i) fs/s ps fs/s FORTLEZA-MATERA 188/ 198 48.7 0.95 1.63 1342.4 0.00 44.0 0.0 FORTLEZA-NYALES20 169/ 175 46.4 0.94 1.79 737.1 0.00 43.4 0.0 FORTLEZA-WETTZ13N 209/ 215 49.5 0.94 2.00 906.8 0.00 48.3 0.0 MATERA -NYALES20 300/ 308 26.1 0.93 1.29 209.6 0.00 24.5 0.0 MATERA -WETTZ13N 349/ 365 21.6 0.94 1.16 520.1 0.00 20.2 0.0 NYALES20-WETTZ13N 358/ 364 25.0 0.93 1.43 528.3 0.00 25.3 539.9 SEJONG -MATERA 62/ 66 132.6 0.94 1.56 348.8 0.00 114.0 0.0 SEJONG -NYALES20 69/ 109 183.4 0.95 2.65 360.0 0.00 178.3 0.0 SEJONG -WETTZ13N 88/ 99 107.8 0.90 1.53 395.3 0.00 95.7 0.0 Not included: FORTLEZA-SEJONG 0/ 2 deselected Source Statistics Source # W.Obs W.RMS Del N.R.D. N.R.D. W.RMS Rate N.R.R. ps standard ( 15ps) fs/s 1657-261 A 11/ 12 42.3 1.16 1.77 239.8 0.00 1639-062 B 22/ 22 34.3 1.05 1.37 841.4 0.00 OJ287 C 133/ 142 24.7 0.82 1.70 370.2 0.00 1546+027 D 77/ 83 22.0 0.70 1.21 257.8 0.00 1418+546 E 75/ 86 35.0 1.06 1.52 189.3 0.00 1227+255 F 3/ 3 46.3 1.02 1.10 594.0 0.00 1435-218 G 5/ 5 39.4 1.06 1.44 2018.1 0.00 1741-038 H 32/ 34 23.7 0.76 1.30 879.6 0.00 NRAO512 I 107/ 108 34.3 1.07 1.64 342.7 0.00 3C446 J 25/ 26 38.7 1.13 1.87 137.1 0.00 1749+096 K 92/ 99 24.8 0.83 1.38 362.4 0.00 3C418 L 242/ 255 33.1 1.00 1.84 250.9 0.00 2355-106 M 25/ 26 34.7 0.96 1.48 212.7 0.00 1842+681 N 13/ 14 33.6 0.92 1.07 205.1 0.00 2229+695 O 61/ 62 37.9 1.10 1.54 279.9 0.00 2144+092 P 14/ 14 19.1 0.53 0.82 210.4 0.00 1149-084 Q 3/ 3 30.4 0.85 1.37 1618.6 0.00 0322+222 R 6/ 6 20.0 0.63 1.13 112.3 0.00 0229+131 S 31/ 33 30.8 1.02 1.44 2981.1 0.00 1144+402 T 166/ 181 33.7 1.04 2.01 820.5 0.00 0202+319 U 97/ 101 31.1 0.95 1.60 553.2 0.00 0119+115 V 10/ 14 34.5 1.18 1.45 53.8 0.00 0017+200 W 75/ 76 30.5 0.90 1.24 435.0 0.00 0133+476 X 88/ 98 29.0 0.94 1.54 470.2 0.00 0420+022 Y 22/ 22 14.0 0.46 0.69 191.4 0.00 1030+415 Z 70/ 77 30.8 1.00 1.48 363.4 0.00 1022+194 A 1/ 1 47.1 1.50 1.67 59.8 0.00 0454-234 B 8/ 8 15.6 0.45 1.06 229.4 0.00 0745+241 C 10/ 10 19.5 0.63 0.83 498.4 0.00 0727-115 D 24/ 25 31.5 0.93 1.80 237.8 0.00 0552+398 E 104/ 108 23.3 0.84 1.32 84.4 0.00 0716+714 F 64/ 69 26.4 0.83 1.30 203.7 0.00 0613+570 G 76/ 78 25.7 0.79 1.25 266.5 0.00 Station Statistics Station # W.Obs W.RMS Del N.R.D. N.R.D. W.RMS Rate N.R.R. ps standard ( 15ps) fs/s FORTLEZA 566/ 590 48.3 0.94 1.82 972.6 0.00 MATERA 899/ 937 26.7 0.94 1.34 501.9 0.00 NYALES20 896/ 956 28.7 0.93 1.59 327.9 0.00 SEJONG 219/ 276 130.2 0.93 1.96 374.9 0.00 WETTZ13N 1004/ 1043 26.6 0.93 1.49 573.0 0.00 *** Flyby Status *** directory: /500/oper/solve_save_files Station Source Nutation Nutation Earth Earth Station Pressure EOP Intp. EOP Intp. High Freq Axis Positions Positions Model Time Rotation Rotation Velocity Loading Smoothing Smoothing EOP Offset Series Series Interpol. Model CALC Mod File Model Mod File --------- --------- --------- --------- --------- --------- --------- --------- --------- --------- --------- --------- glo.sit glo.src NONE NONE NONE NONE glo.vel NONE NO_ZONAL N/A NONE glo.axis Site Plate Map: /500/oper/solve_save_files/sitpl.dat Parameter adjustments for run 20010-1405 User=DG Reference epoch for polynomial models: 19/12/31 00:00 Parameter Adjustment a-sigma m-sigma WETTZ13N CLCK 19/12/30 17:00 Reference Station positions are for epoch: 2019.12.31-05:24:56 1. FORTLEZA 7297 SOAM X Comp 4985370014.71 mm 24.905 mm 8.149 mm 8.147 mm 2. FORTLEZA 7297 SOAM Y Comp -3955020409.60 mm 9.791 mm 5.343 mm 5.342 mm 3. FORTLEZA 7297 SOAM Z Comp -428472012.35 mm -20.108 mm 5.646 mm 5.645 mm FORTLEZA 7297 U Comp 14.76 mm 14.755 mm 9.124 mm 9.122 mm FORTLEZA 7297 E Comp 23.15 mm 23.149 mm 2.919 mm 2.919 mm FORTLEZA 7297 N Comp -19.15 mm -19.154 mm 5.922 mm 5.921 mm 4. FORTLEZA CL 0 19/12/30 17:06 -336.094 ns 0.040 ns 0.040 ns 5. FORTLEZA CL 1 19/12/30 17:06 19.388 D-14 0.067 D-14 0.067 D-14 31. FORTLEZA AT 0 19/12/30 17:00 2098.771 ps 10.402 ps 10.400 ps FORTLEZA Atm 2019.12.31-05:20:12.986 Avg: 1052.052 ps Rms: 33.933 ps Tot_Rms: 33.927 ps 57. FORTLEZA NG 19/12/30 17:00 0.056 mm 0.420 mm 0.420 mm 58. FORTLEZA EG 19/12/30 17:00 0.064 mm 0.214 mm 0.214 mm 59. FORTLEZA NG 19/12/31 16:58 1.853 mm 0.301 mm 0.301 mm 60. FORTLEZA EG 19/12/31 16:58 -0.952 mm 0.196 mm 0.196 mm Station positions are for epoch: 2019.12.31-04:51:29 61. MATERA 7243 EURA X Comp 4641938323.39 mm -14.277 mm 2.566 mm 2.565 mm 62. MATERA 7243 EURA Y Comp 1393003463.87 mm 11.938 mm 1.365 mm 1.364 mm 63. MATERA 7243 EURA Z Comp 4133325851.36 mm -31.992 mm 4.645 mm 4.644 mm MATERA 7243 U Comp -28.61 mm -28.612 mm 4.603 mm 4.602 mm MATERA 7243 E Comp 15.54 mm 15.538 mm 1.262 mm 1.262 mm MATERA 7243 N Comp -17.60 mm -17.600 mm 2.692 mm 2.691 mm 64. MATERA CL 0 19/12/30 17:00 -11062.472 ns 0.021 ns 0.021 ns 65. MATERA CL 1 19/12/30 17:00 -39.887 D-14 0.045 D-14 0.045 D-14 91. MATERA AT 0 19/12/30 17:00 207.291 ps 8.235 ps 8.234 ps MATERA Atm 2019.12.31-04:54:39.701 Avg: 91.471 ps Rms: 21.587 ps Tot_Rms: 21.584 ps 117. MATERA NG 19/12/30 17:00 0.201 mm 0.192 mm 0.192 mm 118. MATERA EG 19/12/30 17:00 -0.170 mm 0.113 mm 0.113 mm 119. MATERA NG 19/12/31 16:58 0.756 mm 0.215 mm 0.214 mm 120. MATERA EG 19/12/31 16:58 -0.601 mm 0.111 mm 0.111 mm 121. NYALES20 CL 0 19/12/30 17:00 -162363.637 ns 0.025 ns 0.025 ns 122. NYALES20 CL 1 19/12/30 17:00 125.642 D-14 0.045 D-14 0.045 D-14 148. NYALES20 AT 0 19/12/30 17:00 95.917 ps 9.157 ps 9.156 ps NYALES20 Atm 2019.12.31-05:35:37.704 Avg: 42.839 ps Rms: 16.039 ps Tot_Rms: 16.036 ps 174. NYALES20 NG 19/12/30 17:00 0.040 mm 0.435 mm 0.435 mm 175. NYALES20 EG 19/12/30 17:00 -0.210 mm 0.229 mm 0.229 mm 176. NYALES20 NG 19/12/31 16:58 0.194 mm 0.227 mm 0.227 mm 177. NYALES20 EG 19/12/31 16:58 -0.448 mm 0.153 mm 0.153 mm Station positions are for epoch: 2019.12.31-04:35:34 178. SEJONG 7368 EURA X Comp -3110080167.62 mm 52.275 mm 16.560 mm 16.557 mm 179. SEJONG 7368 EURA Y Comp 4082066582.72 mm -11.710 mm 26.026 mm 26.022 mm 180. SEJONG 7368 EURA Z Comp 3775076794.07 mm 38.253 mm 30.302 mm 30.297 mm SEJONG 7368 U Comp -10.18 mm -10.179 mm 37.474 mm 37.468 mm SEJONG 7368 E Comp -34.48 mm -34.485 mm 10.827 mm 10.825 mm SEJONG 7368 N Comp 55.14 mm 55.139 mm 18.662 mm 18.659 mm 181. SEJONG CL 0 19/12/30 18:28 -34581.584 ns 0.153 ns 0.153 ns 182. SEJONG CL 1 19/12/30 18:28 -7.092 D-14 0.101 D-14 0.101 D-14 208. SEJONG AT 0 19/12/30 17:00 259.613 ps 38.588 ps 38.582 ps SEJONG Atm 2019.12.31-02:17:47.718 Avg: 107.369 ps Rms: 10.844 ps Tot_Rms: 10.842 ps 234. SEJONG NG 19/12/30 17:00 0.070 mm 2.251 mm 2.251 mm 235. SEJONG EG 19/12/30 17:00 0.109 mm 2.059 mm 2.059 mm 236. SEJONG NG 19/12/31 16:58 0.297 mm 1.355 mm 1.354 mm 237. SEJONG EG 19/12/31 16:58 -1.626 mm 1.273 mm 1.273 mm Station positions are for epoch: 2019.12.31-04:52:28 238. WETTZ13N 7387 EURA X Comp 4075627544.31 mm 0.051 mm 2.043 mm 2.042 mm 239. WETTZ13N 7387 EURA Y Comp 931774394.02 mm 10.480 mm 1.184 mm 1.184 mm 240. WETTZ13N 7387 EURA Z Comp 4801552416.79 mm -21.979 mm 4.437 mm 4.436 mm WETTZ13N 7387 U Comp -15.06 mm -15.063 mm 4.383 mm 4.382 mm WETTZ13N 7387 E Comp 10.20 mm 10.205 mm 1.140 mm 1.140 mm WETTZ13N 7387 N Comp -16.18 mm -16.182 mm 2.180 mm 2.180 mm 241. WETTZ13N AT 0 19/12/30 17:00 295.261 ps 7.769 ps 7.768 ps WETTZ13N Atm 2019.12.31-04:57:39.402 Avg: 155.339 ps Rms: 55.547 ps Tot_Rms: 55.538 ps 267. WETTZ13N NG 19/12/30 17:00 -0.203 mm 0.133 mm 0.133 mm 268. WETTZ13N EG 19/12/30 17:00 -0.176 mm 0.073 mm 0.073 mm 269. WETTZ13N NG 19/12/31 16:58 -0.462 mm 0.142 mm 0.142 mm 270. WETTZ13N EG 19/12/31 16:58 -0.512 mm 0.093 mm 0.093 mm Atmosphere Constraint Statistics 1. FORTLEZA Input 40.00 ps/h RMS 58.28 ps/h NRMS 1.46 share 0.14 count 25 2. MATERA Input 40.00 ps/h RMS 18.33 ps/h NRMS 0.46 share 0.07 count 25 3. NYALES20 Input 40.00 ps/h RMS 16.76 ps/h NRMS 0.42 share 0.09 count 25 4. SEJONG Input 40.00 ps/h RMS 15.91 ps/h NRMS 0.40 share 0.63 count 25 5. WETTZ13N Input 40.00 ps/h RMS 33.74 ps/h NRMS 0.84 share 0.05 count 25 Overall RMS 32.88 ps/h NRMS 0.82 share 0.20 count 125 Clock Constraint Statistics 1. FORTLEZA Input 2.00 D-14 RMS 3.37 D-14 NRMS 1.68 share 0.29 count 25 2. MATERA Input 2.00 D-14 RMS 1.34 D-14 NRMS 0.67 share 0.10 count 25 3. NYALES20 Input 2.00 D-14 RMS 1.37 D-14 NRMS 0.69 share 0.13 count 25 4. SEJONG Input 2.00 D-14 RMS 0.99 D-14 NRMS 0.49 share 0.69 count 25 Overall RMS 2.00 D-14 NRMS 1.00 share 0.30 count 100 271. UT1-TAI 1, 19/12/31 04:53 -0.3899 ms/d -13.54 micros/d 12.18 micros/d 12.18 micros/d EOP without included hi-freq variations (a-sigmas) XWOB YWOB UT1-TAI XSIG YSIG USIG mas mas ms microasec microasec microsec 19/12/31 04:53 0.0000 0.0000 0.0000 0.00 0.00 0.00 EOP epoch (TT) MJD: 58848.204453 NUT epoch (TT) MJD: 58848.204453 272. Nutation offset in longitude (Psi) 0.237 mas 156.1 microasec 156.0 microasec Nutation offset around X-axis (dX) 0.094 mas 62.1 microasec 62.1 microasec Nutation offset wrt IAU 1980 model (Psi) -109.323 mas 156.1 microasec 156.0 microasec 273. Nutation offset in obliquity (Eps) 0.067 mas 49.6 microasec 49.6 microasec Nutation offset around Y-axis (dY) 0.067 mas 49.6 microasec 49.6 microasec Nutation offset wrt IAU 1980 model (Eps) -6.553 mas 49.6 microasec 49.6 microasec 274. FORTLEZA-MATERA Clock offset 5.154 ps 5.469 ps 5.468 ps 275. FORTLEZA-NYALES20 Clock offset 0.246 ps 5.666 ps 5.666 ps 276. MATERA -NYALES20 Clock offset -3.023 ps 2.551 ps 2.550 ps 277. SEJONG -MATERA Clock offset 127.580 ps 22.603 ps 22.599 ps 278. SEJONG -NYALES20 Clock offset 354.318 ps 27.495 ps 27.491 ps General constraints usage information: 1) CLO_RATE "Clock rate between segments " sigma 2.000E+00 10^-14 sec/sec 2) ATM_RATE "Atmosphere rate between segments" sigma 4.000E+01 psec/hr Corrected Reduced Chi-Square 0.9997 1 Baseline information for run 20010-1405 Monument to monument values at epoch 2019Dec31 Baseline vector components: Length, Vertical and Transverse components Vector mag c-sigma Length c-sigma Horizontal c-sigma Vertical c-sigma (mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm) FORTLEZA 7297 to MATERA 7243 7037705906.54 8.92 7037705906.54 4.27 -7.16 2.37 40.16 9.65 2019/12/31 04:59:40 FORTLEZA 7297 to NYALES20 7331 8743816380.72 9.39 8743816380.72 5.72 -25.74 2.50 0.04 9.38 2019/12/31 04:59:40 FORTLEZA 7297 to SEJONG 7368 12157339492.86 45.70 12157339492.86 34.78 -20.79 8.56 -63.52 25.72 2019/12/31 04:59:40 FORTLEZA 7297 to WETTZ13N 7387 7215369037.30 8.29 7215369037.30 4.20 -10.70 2.13 22.41 9.51 2019/12/31 04:59:40 MATERA 7243 to NYALES20 7331 4190331399.20 7.25 4190331399.20 1.86 -15.07 1.27 -32.94 5.00 2019/12/31 04:59:40 MATERA 7243 to SEJONG 7368 8212989317.48 45.55 8212989317.48 22.04 -39.52 10.77 -54.22 35.38 2019/12/31 04:59:40 MATERA 7243 to WETTZ13N 7387 989932773.54 4.89 989932773.54 0.97 -5.58 0.82 -16.61 3.12 2019/12/31 04:59:40 NYALES20 7331 to SEJONG 7368 6271096135.62 45.68 6271096135.62 20.51 22.55 8.95 -21.13 37.00 2019/12/31 04:59:40 NYALES20 7331 to WETTZ13N 7387 3283120959.32 6.45 3283120959.32 1.54 -10.09 1.14 18.74 4.65 2019/12/31 04:59:40 SEJONG 7368 to WETTZ13N 7387 7912799024.33 45.45 7912799024.33 21.85 -25.56 9.40 45.70 35.83 2019/12/31 04:59:40 -- Note: a posteriori baseline vectors are expressed in a baseline-centric reference frames. The first basis vector of the frame, l, is in direction of a priori baseline, (r_2 - r_1). Direction of the second vector, h, is defined by a cross product of a priori baseline vector and a priori geocentric vector of the 2nd station. The last basis vector, v, is perpendicular to the vectors l and h and is radially inward at the center of the baseline. For the short baselines, the vectors l and h are close to the horizontal plane and v is almost vertical (with opposite sign). In the table above the columns are: * Vector mag: length of the a posteriori baseline; * Length: l-component of the baseline; * Horizontal: h-component of the baseline; * Vertical: v-component of the baseline; * c-sigma: calculated (using standard deviations of adjusted station coordinates of baselines) standard deviations of the corresponding values.