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The Dioscures Project

Published online by Cambridge University Press:  18 January 2010

B. Manuali
Affiliation:
(Centre National d'Etudes Spatiales)

Extract

In January 1967 the Centre National d'Etudes Spatiales and the Secrétariat Général à l'Aviation Civile agreed on the definition of the main characteristics of the Project Dioscures, a system for telecommunications, air traffic control and navigation by means of satellites. Since then, technical studies have been carried out and the main equipment is being developed. The proposed system will enable air traffic control centres to provide continuous position determination for aircraft in the common visibility zone of two geostationary satellites. Furthermore, it will establish dependable and good-quality communication links between aircraft, control centres and other users (airlines and shipping companies, meteorological services, &c.). The system will initially be implemented over the Atlantic, mainly to serve the North Atlantic region, to be progressively expanded to cover the whole world.

Type
Research Article
Copyright
Copyright © The Royal Institute of Navigation 1969

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References

REFERENCES

1Projet Dioscures. Premièré étude économique (CNES/PR/426).Google Scholar
2Erreurs ionosphériques dans la localisation d'un avion par deux satellites géostationnaires (CNES/PR/AM/846).Google Scholar
3Journal of Geophysical Research, 66, no. 4, 1061–7.CrossRefGoogle Scholar
4Planetary and Space Science, 15, no. 7, 1115–67Google Scholar
5Etudes C.N.E.S. (non publiées). MT/B,d,R/8–325, MT/B,d,R/8–299.Google Scholar
6Newman, P. (1966). ‘Geophysical aspects of radio star and satellite ionosphere scintillations in spread F and its effects upon radio propagation and communication; and F region irregularities studied by scintillations of signals in spread F and its effects upon radio propagation and communication’. Agardograph 95, Technivision, Ltd., Maidenhead, England, pp. 217 and 247.Google Scholar
7Blackband, W. T. (1967). Ed. ‘Effects of ionospheric irregularities on space data acquisition in the auroral zone in propagation factors in space communications’. AGARD conference Proceedings, no. 3, Technivision Ltd., Maidenhead, England, p. 225.Google Scholar
8Blackband, W. T. (1967). Ed. ‘Noise produced by terrestrial sources in the near earth space in propagation factors in space communications’. AGARD conference Proceedings, no. 3, Technivision Ltd., Maidenhead, p. 283.Google Scholar
9Project Dioscures Ltd., CNES-SGAC (January 1967).Google Scholar