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Aircraft sequencing and scheduling in TMAs under wind direction uncertainties

R.K. Cecen, Cem Çetek, Onur Kaya

2020The Aeronautical Journal23 citationsDOI

Abstract

ABSTRACT Aircraft sequencing and scheduling within terminal airspaces has become more complicated due to increased air traffic demand and airspace complexity. A stochastic mixed-integer linear programming model is proposed to handle aircraft sequencing and scheduling problems using the simulated annealing algorithm. The proposed model allows for proper aircraft sequencing considering wind direction uncertainties, which are critical in the decision-making process. The proposed model aims to minimise total aircraft delay for a runway airport serving mixed operations. To test the stochastic model, an appropriate number of scenarios were generated for different air traffic demand rates. The results indicate that the stochastic model reduces the total aircraft delay considerably when compared with the deterministic approach.

Topics & Concepts

RunwayAir traffic controlScheduling (production processes)Computer scienceSimulated annealingMathematical optimizationInteger programmingAir traffic managementInternational airportOperations researchReal-time computingEngineeringAlgorithmAerospace engineeringMathematicsHistoryArchaeologyAir Traffic Management and OptimizationAviation Industry Analysis and TrendsHuman-Automation Interaction and Safety
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