ANALYSIS OF INDICATORS RELIABILITY FOR AIRFIELD SYSTEMS AIR TRAFFIC CONTROL
Abstract
Discusses issues relating with reliability for aerodrome air traffic control system. Calculation of indicators of reliability for aerodrome air traffic control system consisting of: Air Traffic Control System (ATCS); radio stations; Radar Landing System (RLS); Azimuth-ranging Radio Beacon (ARRB); Short-Range Decimeter Navigation System (RSBN); Non-directional Radio Beacon (NDB); Automatic Direction Finder (ADF); Airport Lighting Equipment (ALE); Instrument Landing System (ILS). Proposed basic criteria for failure for aerodrome air traffic control system function provide minimum take off and landing is not below category I for aircraft equipped with appropriate avionics. The scheme of reliability calculation and determined the average time to failure and availability for aerodrome air traffic control system. The obtained indicators of reliability for complex systems, in general, slightly worse than the performance of individual components. However, due to the redundancy of individual products and the use of several functionally reserving each other means it is possible to achieve acceptable performance.
About the Authors
D. S. Bondar
Moscow State Technical University of Civil Aviation
Russian Federation
Moscow
A. V. Prokhorov
Moscow State Technical University of Civil Aviation
Russian Federation
Moscow
References
1. GOST 18322-78. Equipment maintenance and repair system. Moscow. StandartinformPubl., 2007. 11 p. (in Russian)
2. OST 4G 0.012.242-84. Radio-electronic equipment. The method of calculation of indicators of reliability. Moscow. StandartinformPubl., 2008. 15 p. (in Russian)
3. OST 4.012.012-83. Radio-electronic equipment. The calculation of the average recovery time. Moscow. StandartinformPubl., 2008. 18 p. (in Russian)
4. Shiryaev A.N. Statisticheskij posledovatel'nyj analiz [Statistical sequential analysis]. Moscow: Nauka, 1976, 232 p. (in Russian)
For citations:
Bondar D.S.,
Prokhorov A.V.
ANALYSIS OF INDICATORS RELIABILITY FOR AIRFIELD SYSTEMS AIR TRAFFIC CONTROL. Civil Aviation High Technologies. 2016;19(5):118-123.
(In Russ.)
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