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Reducing the blocking effect in the airport slot allocation problem with seasonal flexibility

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posted on 2025-01-10, 15:51 authored by David Melder, John DrakeJohn Drake, Sha Wang, Edmund K Burke
Capacity limitations, combined with increased air-traffic, continue to drive the need for better resource management at airports. At congested airports, the allocation of resources for flights to take-off and land is governed through the use of slots. Slots are allocated twice a year according to the Worldwide Airport Slot Guidelines (WASG). A principle of WASG is to allocate slots to a request at the same time and day of the week over a given period, to maintain regularity in a schedule. Adhering to this principle can result in blocking, where requests are displaced to an alternative time period due to lack of available capacity. This paper addresses blocking by allowing a request to be allocated to slightly different times on different operating days. We present a novel integer linear programming (ILP) model and develop a two-stage framework, incorporating the Late Acceptance Hill Climbing metaheuristic, to increase flexibility across a complete scheduling season to mitigate the effect of blocking on three real-world congested airport instances. Results show that exact methods are not tractable for larger problems, as they are unable to find a solution in reasonable computational time, resulting in the need for heuristic methods to solve such problems in practice. Schedules created using the proposed framework are directly compared to an existing state-of-the-art model which aims to mitigate the effect of blocking through seasonal segmentation. The proposed approach is demonstrated to be able to reduce the effect of blocking, reduce the total number of displaced requests, and the maximum displacement within slot schedules when compared with non-flexible schedules.

Funding

Mathematical models and algorithms for allocating scarce airport resources (OR-MASTER)

Engineering and Physical Sciences Research Council

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History

Author affiliation

College of Science & Engineering Comp' & Math' Sciences

Version

  • VoR (Version of Record)

Published in

Transportation Research Part C: Emerging Technologies

Volume

170

Pagination

104917 - 104917

Publisher

Elsevier BV

issn

0968-090X

Copyright date

2024

Available date

2025-01-10

Language

en

Deposited by

Dr John Drake

Deposit date

2024-12-06

Data Access Statement

The authors do not have permission to share data.

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