Abstract
A GPS Global Tracking System for the 1990’s is called for to maintain accurate satellite ephemerides and terrestrial reference frames which support a broad class of geodetic, geophysical, oceanographic and engineering applications. The rationale for an international and civilian-operated GPS tracking system is quite evident in terms of its diverse applications and significant benefits to the scientific community. A description follows for a proposed organizational structure, physical configuration, operational characteristics and user interfaces, which together constitute a highly reliable internationally sponsored GPS Global Tracking System.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Similar content being viewed by others
References
Beutler, G., Gurtner, W., Rothacher, M., and Schildknecht, I. (1986). Evaluation of the March 1985 High Precision Baseline (HPBL) Test: Fiducial Point Concept Versus Free Network Solutions, EOS Trans. AGU, Vol. 67, p. 911.
Blewitt, G. (1989). Carrier Phase Ambiguity Resolution for The Global Positioning System Applied to Geodetic Baselines up to 2000 KM, J. Geophys. Res., in press.
Bosworth, J. (1990). Solid Earth Sciences Program Plan (NASA document, in preparation).
Carson, L., Davis, R., Geier, G., Hailey, L., Huth, G., Munson, T. (1988).
Design and Predicted Performance of the GPS Demonstration Receiver for the NASA TOPEX Satellite, Proa. IEEE PLANS 88, Orlando, FL
Chin, M., editor, (1989). GPS Bulletin, CSTG GPS Subcommission, NGS, Vol 2 No. 5, Rockville MD
Davidson, J.M., Thornton, C.L., Vegos, C.J., Young, L.E., Yunck, T.P. (1985). The March 1985 Demonstration of the Fiducial Network Concept for GPS Geodesy: a Preliminary Report, Proceedings, First International Symposium on Precise Positioning with the Global Positioning System, Rockville MD.
Dong, D., and Bock, Y. (1989). GPS Network Analysis with Phase Ambiguity Resolution Applied to Crustal Deformation Studies in California, J. Geophys. Res., in press.
Everitt, C., Breakwell, J., Tapley, M., DeBra, D., Parkinson, B., Smith, D., Colombo, O., Pavlis, E., Tapely, B., Nerem, R., Yuan, D., and Melbourne, W. (1989).Gravity Probe B As A Geodesy Mission and Its Implications for TOPEX, CSTG Bull. No. 11.
Gouldman, M.W., Hermann, B., and Weedon, D. (1989). Evaluation of GPS Production Ephemeris and Clock Quality, Proceedings 5th International Geodetic Symposium on Satellite Positioning, pp 210–222, Las Cruces NM.
Kornreich Wolf, S., Dixon, T.H., Freymueller, J.T. (1989). The Effect of Tracking Network Configuration on GPS Baseline Estimates for the CASA Uno Experiment, submitted to Geophys. Res.
Lichten, S., and Border, J. (1987). Strategies for High-Precision Global Positioning System Orbit Determination, J. of Geophys.. Res., Vol. 92, No. B12, p. 12751–12762.
Lichten, S. (1989). High Accuracy Global Positioning System Orbit Determination: Progress and Prospectives, International Association of Geodesy, General Meeting Edinburgh Scotland (Springer-Verlag, in press)
Melbourne, W., and Davis, E.S. (1987). GPS-Based Precision Orbit Determination: A TOPEX Right Experiment, AAS/AIAA Astrodynamics Specialist Conference, Paper AAS-87–430, Kalispell, Montana.
Melbourne, W., Blewitt, G., Lichten, S., Malla, R., Neilan, R., Schutz, B., Wu, S. (1988). Establishing a Global GPS Tracking System for Fiducial Control and Ephemeris Production, Paper No. 621A-02, AGU Meeting, May 1988. See also EOS Trans. AGU, Vol. 69, No. 16, p. 323.
Spiess, F. (1987). Seafloor Geodesy by the Year 2000, EOS Trans. AGU, Vol. 68, No. 44, p. 1241.
Srinivasan, J., Meehan, T., and Young, L. (1989). Code and Codeless Ionospheric Measurements with NASA’s Rogue GPS Receiver. Proc. ION GPS-89, Institute of Navigation, pp 451–453.
Thomas, J. (1988). Functional Description of Signal Processing in the Rogue GPS Receiver, JPL Pub. 88–15, Jet Propulsion Laboratory.
Yunck, T., Melbourne, W., and Thornton, C. (1985). GPS-Based Satellite Tracking System for Precise Positioning, IEEE Trans. Geosci. and Remote Sens., GE-23(4), pp. 450–457.
Yunck, T. and Melbourne, W. (1990). Geoscience from GPS Tracking by Earth Satellites. International Association of Geodesy, General Meeting Edinburgh Scotland (Springer-Verlag, in press)
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1990 Springer-Verlag New York Inc.
About this paper
Cite this paper
Neilan, R.E., Melbourne, W.G., Mader, G.L. (1990). The Development of a Global GPS Tracking System in Support of Space and Ground-Based GPS Programs. In: Bock, Y., Leppard, N. (eds) Global Positioning System: An Overview. International Association of Geodesy Symposia, vol 102. Springer, New York, NY. https://doi.org/10.1007/978-1-4615-7111-7_16
Download citation
DOI: https://doi.org/10.1007/978-1-4615-7111-7_16
Publisher Name: Springer, New York, NY
Print ISBN: 978-0-387-97266-4
Online ISBN: 978-1-4615-7111-7
eBook Packages: Springer Book Archive