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The Conflict Resolution Process for TCAS II and Some Simulation Results

Published online by Cambridge University Press:  21 October 2009

R. L. Ford
Affiliation:
(Royal Signals and Radar Establishment)

Abstract

The paper is mainly concerned with the principles used by TCAS (Traffic alert and Collision Avoidance System) to resolve conflicts between airborne aircraft. It leans heavily on an earlier paper which describes the threat-detection process. The simulation results given were obtained using a fast-time computer model for random traffic and comprise statistics on miss distance, warning time, etc., for a simple traffic pattern.

Type
Research Article
Copyright
Copyright © The Royal Institute of Navigation 1987

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References

REFERENCES

1Ford, R. L. (1986). The protected volume of airspace generated by an airborne collision avoidance system. This Journal, 39, 139.Google Scholar
2Errata (1986) Ibid., 39, 446.Google Scholar
3 Airborne Collision Avoidance Systems. (1985). ICAO Circular 195-AN/118.Google Scholar
4Lebron, J. E., et al. (1983). System safety study of minimum TCAS II. US Department of Transportation Report No. DOT/FAA/PM-83/36.Google Scholar
5Goodwin, J. L. and Ford, R. L. (1985). Random air traffic generation for computer models. This Journal, 38, 218.Google Scholar
6Ratcliffe, S. and Ford, R. L. (1982). Conflicts between random flights in a given area. This Journal, 35, 47.Google Scholar
7Ford, R. L. (1983). On the use of height rules in off-route airspace. This Journal, 36, 269.Google Scholar