Station | Cn | Station | Cn |
|---|---|---|---|
GILCREEK | 1.16 | KATH12M | 1.68 |
YELLOWKN | 1.24 | WARK12M | 1.94 |
WESTFORD | 2.30 | Simeiz | 1.98 |
GOLDSTONE | 1.45 | MALINDI | 1.90 |
KOKEE | 1.39 | LIBREVILLE | 1.37 |
FORTLEZA | 2.46 | HELWAN | 1.54 |
TIGOCONC | 2.08 | KERGUELEN | 2.47 |
TAHITI | 2.19 | BANGALORE | 1.86 |
NYALES20 | 0.65 | LHASA | 1.23 |
WETTZELL | 1.50 | BETIOISLAND | 1.69 |
HARTRAO | 1.34 | Quezon | 2.44 |
URUMQI | 1.79 | EasterIsland | 1.91 |
TSUKUB32 | 3.45 | Quito III | 0.91 |
HOBART12 | 1.60 | DIEGO GARCIA | 2.25 |
YARRA12M | 1.76 | Maspalomas | 1.32 |
LaPlata | 2.42 | Hofn | 1.60 |
Members of the VLBI2010 Committee have carried out a series of Monte Carlo simulations to assess the error contribution of tropospheric delays, clock errors, and observation noise to parameters estimated with geodetic VLBI, like baseline lengths, station coordinates, or Earth orientation parameters. VLBI2010 simulations have been performed by the Goddard group (with Calc/Solve and Geodyn) and by the Vienna group (in the beginning with the Occam Kalman filter and a dedicated Precise-Point-Positioning tool for VLBI simulations, and later on with the Vienna VLBI Software VieVS).
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