Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-28T16:27:41.806Z Has data issue: false hasContentIssue false

Differential Omega as a Worldwide Navigation Aid

Published online by Cambridge University Press:  21 October 2009

A. Stratton
Affiliation:
(Terrafix Ltd UK)

Extract

Navigation aids in use today have their origin in mainly military operational requirements for navigation accuracy, coverage and integrity. They have also been directed at the needs of air and sea operations.

Type
Research Article
Copyright
Copyright © The Royal Institute of Navigation 1990

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

1RIN (1988). Proc. Nav 88 Radionav 2000 – A European Dimension. Conference of the Royal Institute of Navigation, London.Google Scholar
2Blanchard, W. (1989). Civil Satellite Navigation and Positioning Systems. This Journal 41, 202.Google Scholar
3Stratton, A. (1987). Reducing the Errors and Extending the Coverage of Differential Omega. Proceedings of the Twelfth Annual Meeting of the International Omega Association, 10A, Arlington, Va.Google Scholar
4Morris, P. D. (1988). OMEGA Tutorial Slides. Supplement to the Proceedings of the 12th Annual Meeting of the International Omega Association. 10A, Arlington, Va.Google Scholar
5Anderson, E. G. (1987). Proposals for a Future Terrestrial Radio navigation System in NW Europe. Proc. IALA Special Radio navigation Conference, London1112 March 1987, International Association of Lighthouse Authorities 13, rue Yvon-Vilarceau, 75116 Paris.Google Scholar
6Stratton, A. (1986). Omega in the Land Environment. Proceedings of the Eleventh Annual Meeting of the International Omega Association. IOA, Arlington, Va.Google Scholar
7Lowe, E., Poppe, M. C. & Stratton, A. (1987, 1989). Position finding System. US Patent 4,680,590 14 July 1987, European Patent 0133807 14 April 1989.Google Scholar
8Beukers, J. M. (1972). Accuracy limitations of the Omega Navigation System employed in the differential mode. Navigation 20, 81–92.Google Scholar
9Barr, R. (1986). The Diffraction of Omega Navigation Signals by the Antarctic Ice Cap. Proceedings of the Eleventh Annual Meeting of the International Omega Association. 10A, Arlington, Va.Google Scholar
10Mannheimer, D. (1981). Lateral Bending Effects at Ionospheric Height Transition. Proceedings of 1981 Symposium on the effect of the Ionosphere on Radio wave Systems, sponsored by NRC ONR & Air Force Geophysics Laboratory.Google Scholar
11Stratton, A. (1988). A World-wide Differential Navigation System. Proceedings of the 13th Annual Meeting of the International Omega Association. 10A, Arlington, Va.Google Scholar
12Beukers, J. M. (1974). A review and applications of VLF and LF transmissions for navigation and tracking. Navigation 21, 117133.CrossRefGoogle Scholar