TY - CONF

T1 - Optimising the trade-off between scheduling and operational delays at congested airports

AU - Shone, Robert

AU - Fairbrother, Jamie

AU - Glazebrook, Kevin

AU - Zografos, Konstantinos

PY - 2019/4/26

Y1 - 2019/4/26

N2 - Slot coordination is used at many of the world’s busiest airports as a means of managing scarce runway capacity. The Worldwide Slot Guidelines (WSG) explain how this should be done in order to satisfy the needs of airlines and slot coordinators in a fair and transparent manner. The constraints involved in this process include “declared capacities” of airports, which are often determined at an administrative level based on previous experience.Mathematical optimisation methods offer the potential to improve upon existing practices for slot allocation, but there are multiple objectives to consider. In particular, a trade-off exists between “schedule displacement”, which quantifies the deviation of a set of allocated slots from the requests originally made by airlines, and “operational delay”, which represents flight delays incurred due to airport congestion. Minimising schedule displacement can often be achieved using integer programming methods, but operational delays depend on stochastic queueing dynamics and must therefore be modelled in a different way.Many slot allocation problems formulated in the academic literature fail to take sufficient account of the operational delays which are likely to occur as a consequence of high demand rates during peak periods. In this presentation we discuss possible methods for producing slot allocations which achieve an acceptable balance between the conflicting objectives of schedule displacement and operational delay. We discuss the modelling challenges involved and present some of our optimisation strategies, which include iterative methods based on feedback loops between separate tasks and also more direct methods based on the incorporation of queueing constraints in integer programming models.

AB - Slot coordination is used at many of the world’s busiest airports as a means of managing scarce runway capacity. The Worldwide Slot Guidelines (WSG) explain how this should be done in order to satisfy the needs of airlines and slot coordinators in a fair and transparent manner. The constraints involved in this process include “declared capacities” of airports, which are often determined at an administrative level based on previous experience.Mathematical optimisation methods offer the potential to improve upon existing practices for slot allocation, but there are multiple objectives to consider. In particular, a trade-off exists between “schedule displacement”, which quantifies the deviation of a set of allocated slots from the requests originally made by airlines, and “operational delay”, which represents flight delays incurred due to airport congestion. Minimising schedule displacement can often be achieved using integer programming methods, but operational delays depend on stochastic queueing dynamics and must therefore be modelled in a different way.Many slot allocation problems formulated in the academic literature fail to take sufficient account of the operational delays which are likely to occur as a consequence of high demand rates during peak periods. In this presentation we discuss possible methods for producing slot allocations which achieve an acceptable balance between the conflicting objectives of schedule displacement and operational delay. We discuss the modelling challenges involved and present some of our optimisation strategies, which include iterative methods based on feedback loops between separate tasks and also more direct methods based on the incorporation of queueing constraints in integer programming models.

M3 - Abstract

T2 - 2nd Joint IMA-ORS Conference

Y2 - 25 April 2019 through 26 April 2019

ER -