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Space Geodesy Techniques: An Experimental and Theoretical Study of Antenna Related Error Sources

R. T. Kenneth Jaldehag (Institutionen för radio- och rymdvetenskap)
Göteborg : Chalmers University of Technology, 1995. ISBN: 91-7197-168-8.

This thesis presents work associated with antenna related error sources, as well as antenna design, in space geodesy utilizing the techniques of Very-Long-Baseline Interferometry (VLBI) and the Global Positioning System (GPS). Geodetic VLBI uses large radio telescopes, often in global networks observing at least a few times per year. As the number of dedicated antennas for this purpose is limited, also antennas designed for radio astronomical research are used. However, new feed systems are needed to handle the simultaneous dual-frequency observations and the large bandwidth in geodetic VLBI. This thesis describes and numerically evaluates such a feed system. The design has the advantage of not interfering with existing front-end receivers of traditional Cassegrain antennas.

In contrast to VLBI antenna systems, GPS antennas have low directivity in order to receive signals from the satellites in different directions simultaneously. The disadvantage with such antennas is the relatively high susceptibility to scattering from structures close to the antenna. Two studies presented in this thesis show that signal scattering from structures associated with the mounting of the antenna to the pillar and with the pillar itself, might be a significant source of error. As nearby structures are in general located below the antenna, scattering from these structures may be minimized using antennas with reduced side- and back-lobe levels. This thesis presents results from a preliminary study of two new designs of such antennas.

The Swedish permanent GPS network, SWEPOS, consists of 20 stations distributed across Sweden. One of the scientific motivations for this network is to monitor crustal motions associated with postglacial rebound. This thesis describes SWEPOS, and results from almost 18 months of daily observations are presented and compared to models of postglacial rebound. The results from SWEPOS have also uncovered two major error sources. One of them is the scattering effect mentioned above. The other, which also is investigated in this thesis, is related to snow accumulated on the top of the pillars and on the radomes that covers the antennas. This accumulation appears to refract and delay the GPS signals, and thus degrade the positioning accuracy.

Nyckelord: space geodesy, geodetic networks, postglacial rebound, very long baseline interferometry (VLBI), Global Positioning System (GPS), reflector antennas, choke-ring antennas, GPS error sources, signal scattering, signal multipath

Denna post skapades 2006-08-28. Senast ändrad 2013-09-25.
CPL Pubid: 1133