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Civil Satellite Navigation and Location Systems

Published online by Cambridge University Press:  21 October 2009

W. F. Blanchard
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Extract

1. INTRODUCTION. The American Global Positioning System (GPS/Navstar) and the USSR's Glonass are superb demonstrations of high technology but we should not forget that they were designed and implemented for a very different set of circumstances from that of the civil surveyor and navigator. Many of their features are not required for civil purposes and it is perfectly possible to get excellent results for many civil applications without the vast expenditure that went into those systems. This paper describes some of the ways in which it is proposed that satellites, not necessarily launched for the purpose, might be, and are being, exploited for civil navigation and location.

Type
Research Article
Information
The Journal of Navigation , Volume 42 , Issue 2 , May 1989 , pp. 202 - 222
Copyright
Copyright © The Royal Institute of Navigation 1989

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References

REFERENCES

1 International Telecommunications Convention, Radio Regulations, Article I. Terms and Conditions.Google Scholar
2RAF (1946). Royal Air Force Manual of Air Navigation (AP 1234).Google Scholar
3Blanchard, W. F. (1983). The continuing development of Transit. IEE Conference on Satellite Communications and Navigation, London.Google Scholar
4 US Dept. of Transportation (1987). Federal Radionavigation Plan.Google Scholar
5 Rockwell-Collins Ltd. (1986). Publicity leaflet.Google Scholar
6 Rockwell-Collins Ltd. (1986). Publicity leaflet.Google Scholar
7Chance, John E. Inc. (1987). ‘Starfix’ Operating Manual.Google Scholar
8 International Telecommunications Union (1988). Table of Frequency Allocations.Google Scholar
9Gibson, R. and Diederich, P. (1988). ‘Rexstar’. IEE 4th Conference on Satellite Communications and Navigation, London.Google Scholar
10Ott, L. E. and Blanchard, W. F. (1988). The Starfix satellite navigation system. IEE 4th Conference on Satellite Systems.Google Scholar
11 (a) O'Neill, G. K. (1986). The Geostar radio determination satellite system. Tele communications Journal, 53, 257.Google Scholar
(b) Hernandez, P. (1987). The Locstar Radio Determination Satellite System. France: CNES.Google Scholar
12 Satconsult Ltd (UK) (1987). Study of the Geostar/ Locstar System.Google Scholar
13O'Neill, G. K. (1983). Geostar-Triad update. AOPA Pilot, Sept.Google Scholar
14Niemeyer, P. (1987). Starfind – single satellite geolocation. European Satellite Communication Conference, London.Google Scholar
15Diederich, P. (1988). The development of civil satellite navigation in Europe. USION GPS- 88 Conference, Colorado Springs.Google Scholar
16Gibson, R. and Diederich, P. (1988). Rexstar - a regional 2D navigation service. IEE 4th Conference on Satellite Systems.Google Scholar
17Kinal, G. V. and Hungerford, K. (1988). Combining the use of geostationary and inclined orbit satellites for integrated communications and navigation. IEE 4th International Conference on Satellite Systems, London.Google Scholar
18Gallagher, R. T. (1987). New stars for navigation. Oceanvoice, october.Google Scholar