Global VLBI Solution IGG05R01 1 Institute of Geodesy and Geophysics (IGG), Vienna, Austria 2 German Geodetic Research Institute (DGFI), Munich, Germany Robert Heinkelmann 1, Johannes Boehm 1, Harald Schuh 1, and Volker Tesmer 2
2 general aim: contributions to future realizations of IVS and IERS combined products - TRF - CRF - EOP time series special aim: investigations of dependencies between the long-term characteristics of - met data in VLBI Analysis - tropospheric parameters - station positions and velocities - scale factor and scale rate Motivation 4th IVS General Meeting
3 unconstrained simultaneous estimation of - source positions (VieCRF) - station positions and velocities (VieTRF) - Earth orientation parameters (VieEOP) using OCCAM 6.1 (LSM) VLBI software and DOGS-CS for handling the normal equations 1 geodetic datum definitions: - VieCRF: NNR w.r.t. ICRF-Ext.1 using 199 stable sources - VieTRF: NNR+NNT w.r.t. ITRF2000 using 15 stations 1 the DOGS-CS software was developed at DGFI, Munich; thank you for provision IGG05R01 – General characteristics 4th IVS General Meeting
4 3,414,325 observations 1450 globally estimated parameters 2702 sessions in NGS-format till IGG05R01 – General characteristics total number of sessions available in NGS-format IGG05R th IVS General Meeting
5 session criteria minimal duration: 18h (no intensive sessions) minimum of 3 stations no sessions unreliable for the determination of EOP ( ) rms < 2 cm, fraction of outliers < 3.5 % station criteria 50 VLBI stations (of 136 out of ITRF2000) no mobile stations (but TIGOCONC) source criteria 552 radio sources (of 667 out of ICRF-Ext. 1) minimum of 3 observations per session minimum of 3 sessions for global estimation of source position Criteria for the solution 4th IVS General Meeting
6 Estimated parameters with OCCAM CRF: right ascension α, declination TRF: positions X, Y, Z EOP: nutation , , and ERP: Xp, Ẋp, Yp, Ẏp, dUT1, dUṪ1 tropospheric zenith delays: offset, PWLF with 1 hour interval, rates constrained with 10 mm/h tropospheric gradients: offset constrained with 0.5 mm clock parameters: offset, rate, and squared rate w.r.t. reference station + clock breaks (if necessary), PWLF with 1 hour interval, rates constrained with 30 mm/h 4th IVS General Meeting
7 Estimated parameters with DOGS-CS CRF: right ascension α, declination TRF: positions X, Y, Z, and velocities Ẋ, Ẏ, Ż discontinuities:GILCREEK| | earthquake TSUKUB32| | rail repair DSS65| | rail repair EFLSBERG| | rail repair MEDICINA| | rail repair DSS15| | earthquake MOJAVE12 | | earthquake NRAO85 3 | | unknown EOP tropospheric zenith delays tropospheric gradients clock parameters reduced 4th IVS General Meeting
8 Analysis settings and geophysical models outlier elimination: data snooping with threshold of 3.5 mapping function: VMF cutoff elevation angle : 5° a-priori zenith delays from homogenized pressure records axis offsets: taken from the Analysis Coordinator webpage ( model of relativity: ‘consensus model’ ephemerides: DE405/LE405 model of nutation: MHB 2000 (without FCN) solid earth tides: IERS Conv ocean loading: GOT00p2 (provided by H.G. Scherneck) no a-priori tropospheric gradients no atmospheric loading, snow loading, … no antenna thermal deformation 4th IVS General Meeting
9 VieCRF* w.r.t. ICRF-Ext.1 [hour] [deg] [mas] *cos( ) [mas] 1.1 %>3 mas 0.8 %>3 mas 4th IVS General Meeting * sources with >3 sessions
10 VieEOP w.r.t. IERS-C04 MHB2000 model was used without free core nutation part! : signal with period ~ 430 d (free core nutation) shift: mas rate: mas/y : signal with period ~ 430 d (free core nutation) shift: mas rate: mas/y 4th IVS General Meeting
VieEOP w.r.t. IERS-C04 ITRF2000, ICRF-Ext.1 and EOP-C04 are from different solutions! dXp: shift: mas rate: mas/y dYp: shift: mas rate: mas/y dUT1: shift: s rate: s/y 11 4th IVS General Meeting
12IGG05R01 VTRF2005 VieTRF 4th IVS General Meeting
13 Vertical component w.r.t. ITRF2000 VieTRF VTRF2003 VTRF2005 DGFI-TRF The 15 datum stations 4th IVS General Meeting
14 Helmert parameters from VieTRF into ITRF2000 12 regularly used stations (IVS 2005) epoch [ as] ± ± 240 [ as] ± ± 247 [ as] ± ± 236 X [mm] 1.5 ± ± 6.3 Y [mm] -2.6 ± ± 6.2 Z [mm] 1.0 ± ± 6.0 scale [ppb] 0.81 ± ± 0.94 scale [mm]* ALGOPARK FORTLEZA GILCREEK HARTRAO HOBART26 KOKEE MATERA NYALES20 SESHAN25 TSUKUB32 WESTFORD WETTZELL scale rate is ppb/y, 0.02 mm*/y * at Earth radius 4th IVS General Meeting
16 Earthquake near Concepci ó n, superconducting gravity meter jump of +26 Gal (free-air gradient ≈ mgal/m) => up= ̶ 84 mm model 2: constant rate => up= ̶ 7.7 mm model 1: two rates => up= +0.5 mm 4th IVS General Meeting no comparable jump in up component! instrumental effect?!
17 Summary and outlook IGG05R01, the Vienna global solution, is already of acceptable quality it can be improved by using met data from NWM extending the number of stations extending the number of sources (outside the ICRF-Ext.1) adding sub-sets of 24h type of sessions, in particular the large VLBA sessions applying atmospheric loading corrections applying corrections for the thermal deformation of telescopes applying a-priori atmospheric gradients applying new mapping functions VM1 (instead of VMF) optimizing soft + hard constraints 4th IVS General Meeting
contacts: R. Heinkelmann Thank you for your attention! end 4th IVS General Meeting The coauthors are greatly acknowledged for their scientific advice. Project is funded by