A collinearity diagnosis of the GNSS geocenter determination.

Rebischung, Paul; Altamimi, Zuheir; Springer, Tim

The problem of observing geocenter motion from global navigation satellite system (GNSS) solutions through the network shift approach is addressed from the perspective of collinearity (or multicollinearity) among the parameters of a least-squares regression. A collinearity diagnosis, based on the notion of variance inflation factor, is therefore developed and allows handling several peculiarities of the GNSS geocenter determination problem. Its application reveals that the determination of all three components of geocenter motion with GNSS suffers from serious collinearity issues, with a comparable level as in the problem of determining the terrestrial scale simultaneously with the GNSS satellite phase center offsets. The inability of current GNSS, as opposed to satellite laser ranging, to properly sense geocenter motion is mostly explained by the estimation, in the GNSS case, of epoch-wise station and satellite clock offsets simultaneously with tropospheric parameters. The empirical satellite accelerations, as estimated by most Analysis Centers of the International GNSS Service, slightly amplify the collinearity of the $$Z$$ geocenter coordinate, but their role remains secondary.

GLOBAL Positioning System; COLLINEAR reactions; MULTICOLLINEARITY; STATISTICAL correlation; REGRESSION analysis

Journal of Geodesy, 2014, Vol 88, Issue 1, p65

0949-7714

Academic Journal

10.1007/s00190-013-0669-5