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Separation Standards—II

Published online by Cambridge University Press:  18 January 2010

P. G. Reich
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Extract

In the first part of this series of papers an outline was given of the approach made at the Royal Aircraft Establishment to the problems of estimating collision risk and of specifying the quality of navigation needed to make separation standards safe. It was stressed that estimates should be based on intensive observation of flying errors, rather than on speculative theories, and that it is more feasible to develop ‘upper limit’ estimating techniques than those which purport to give the exact risk. In summary, a list of seven ‘requirements’ was given, as a reminder of the essential principles which can so easily be overlooked in the piecemeal task of relating separation standards to collision risk.

The purpose of this paper is to show some of the theoretical techniques which have been developed at R.A.E. to satisfy five of these requirements. (The remaining two do not call for special techniques and will be dealt with when practical applications are described in Part III.) The paper contains three Appendixes, dealing with the frequency of losing separation in one dimension, the computation of P's from the assumed tail shapes, and the treatment of relative errors. These are not included here but will appear in the off-printed version which may be obtained from the Royal Aircraft Establishment.

Both this paper and the paper that follows by Mr. Attwooll are crown copyright and are reproduced with the permission of H.M. Stationery Office.

Type
Analysis of Long-Range Air Traffic Systems
Information
The Journal of Navigation , Volume 19 , Issue 2 , April 1966 , pp. 169 - 186
Copyright
Copyright © Crown Copyright 1966

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References

REFERENCES

1Reich, P. G. (1966). Analysis of long-range air traffic systems: Separation stand ards—I. This Journal, 19, 1.Google Scholar
2Reich, P. G. (1964). A theory of safe separation standards for air traffic control. R.A.E. Tech.Report 64041.Google Scholar
3Reich, P. G. (1964). An analysis of planned aircraft proximity and its relation to collision risk. R.A.E. Tech. Report 64042.Google Scholar
4Reich, P. G. (1964). Separation standards in the North Atlantic region 1965–71 in the light of recent measurements of flying errors. R.A.E. Tech. Report 64043.Google Scholar
5Piggott, B. A. M. (1965). A non-linear maximization problem arising in the study of aircraft collision risk. R.A.E. Tech. Report 65044.Google Scholar
6Federal Aviation Agency (1964). Operation Accordion—navigational accuracies of civil jet aircraft over the North Atlantic. Feb. 1962-S–ept. 1963. Federal Aviation Agency Report No. RD-64-52, 1.Google Scholar
7Kolnick, J. J. and Bentley, B. S. (1963). Random deviation from stabilized cruise altitudes. N.A.S.A.T.N.D.–1950.Google Scholar
8I.A.T.A. (1964). Report on vertical separation study, North Atlantic region, 07 15–09 30, 1963. I.A.T.A. Doc. Gen. 1951.Google Scholar