Currently seven Analysis Centers of the International GPS Service for
Geodynamics (IGS) are producing daily precise orbits and the correspon
ding Earth Orientation Parameters (EOP). These individual products are
available at several IGS Data Centers (e,g. CDDIS, IGN, SIG, etc.). D
uring 1993 no official IGS orbits were produced, but the routine orbit
comparisons by IGS indicated that, after small orientation and scale
alignments, the orbit consistency was approaching the 20 cm level (a c
oordinate RMS), and that some orbit combination should be possible and
feasible. An IGS combined orbit could provide a precise and efficient
extension of the IERS Terrestrial Reference Frame (ITRF). Another adv
antage of such a combined orbit would be reliability and precision. Tw
o schemes of orbit combinations are considered here: (a) the first met
hod consists of a weighted averaging process of the earth-fixed satell
ite positions as produced by the individual Centers; (b) the second me
thod uses the individual IGS orbit files as pseudo-observations in an
orbit determination process, where in addition to the initial conditio
ns, different parameter sets may be estimated. Both orbit combination
methods have been tested on the January 1993 orbit data sets (GPS week
s 680 and 681) with an impressive agreement at the 5 cm level (coordin
ate RMS). The quality of the combined orbits is checked by processing
a set of continental baselines in two different regions of the globe u
sing different processing softwares. Both types of combined orbits gav
e similar baseline repeatability of a few ppb in both regions which co
mpared favorably to the best individual orbits in the region.