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„ Fuzzy Expert” System for Determination of Runways in Use Case Study: Zurich Airport Fedja Netjasov University of Belgrade Faculty of Traffic and Transport Engineering Division of Airports and Air Traffic Safety
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Airport Traffic Control Tasks Monitoring of departing and arriving traffic at the airport with aim of securing: - safe, - accurate and - expeditious traffic. This is obligation of Air Traffic Controllers who are located in the Airport Control Tower.
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Airport Traffic Controller Duties Most important ones are: Airport Traffic Monitoring (directly through the window or by binoculars); Radio Comunication with aircraft pilots and ground handlung personal; Determination of runway(s) in use.
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Determination of runways in use Problem definition For the case of multiple runways: depending on meteorological conditions and planned traffic demand, airport traffic controller determine the runways in use trying to “maximize” utilization of available airport capacity and “minimize” the noise level.
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Problem nature Real Time Combinatorial Problem; Large number of feasible combination of runways; Large number of operational constraints; Conflicting Goals; Decision making process is dependant of controller’s subjective judgments.
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Reasons for development of “fuzzy expert” model Usage of input data in different form (linguistic, quantitative); Individual differences between controllers (personal experience, age, personality, etc.); Better satisfaction of given criteria (maximization of capacity, minimization of noise level, etc.);
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Conceptual model for determination of runway in use Determination of meteorological conditions on the basis of visibility and ceiling; Determination of operational concept in use on the basis of meteorological conditions, wind direction and runway condition; Aircraft assignment to runways in use on the basis of operational concept in use and estimated number of departures and arrivals
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Fuzzy Model 1 Serves for the determination of meteorological conditions at a specific time using the fuzzy variable visibility and ceiling.
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Fuzzy Model 1 (cont.) The output of the model is presented as fuzzy variables “preference of meteorological condition (VMC/MMC/IMC)”.
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Fuzzy Model 2 Using fuzzy variables “planned hourly number of departures (arrivals)” and “absolute difference” determines the “estimated” number of departures and arrivals.
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Fuzzy Model 2 (cont.)
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Output from Fuzzy model 2 is presented as fuzzy variables “preference that number of departures (arrivals) is small/middle/large”.
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Rule Base Based on results from Fuzzy Model 1 and 2, and using additional information on wind direction and runway conditions, as a result gives us the operational concept in use and distribution of traffic (by aircraft category) on runways in use.
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A
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Numerical example Meteorological data are: visibility – 3000 m; ceiling – 1100 ft; wind direction – 90 0 ; runway condition – wet. Traffic data planned for next hour are: planned number of departures - 29; planned number of arrivals - 11;
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Concept A Concept B Concept C Concept D
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Determination of meteorological condition VMC
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Determination of number of departures MIDDLE
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Determination of number of arrivals SMALL
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Determination of final results
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Conclusion and Further Research Developed model could serve for evaluation or for suggestion of decision; Model could be easily applied for any other airport; This is prototype of a model, so further verification and additional “fine tuning” is required.
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University of Belgrade Faculty of Transport and Traffic Engineering Department of Air Transport Division of Airports and Air Traffic Safety http://apatc.sf.bg.ac.yu Vojvode Stepe 305, 11000 Belgrade Serbia and Montenegro tel: +381 11 3091 352 fax: + 381 11 466 294 Thank you for your attention
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