Greedy algorithms and metaheuristics for a multiple runway combined arrival-departure aircraft sequencing problem

Gulsah Hancerliogullari; Ghaith Rabadi; Ameer H. Al-Salem; Mohamed Kharbeche

doi:10.1016/j.jairtraman.2013.06.001

Greedy algorithms and metaheuristics for a multiple runway combined arrival-departure aircraft sequencing problem

Gulsah Hancerliogullari^*, Ghaith Rabadi, Ameer H. Al-Salem, Mohamed Kharbeche

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

101 Citations (Scopus)

Abstract

This paper examines the Aircraft Sequencing Problem (ASP) over multiple runways, under mixed mode operations with the objective of minimizing the total weighted tardiness of aircraft landings and departures simultaneously. The ASP can be modeled as a parallel machine scheduling problem with unequal ready-times, target times and deadlines. Furthermore, sequence-dependent separation times on each runway are considered to prevent the dangers associated with wake-vortex effects. Due to the problem being NP-hard, greedy heuristics and metaheuristics are applied in this paper to obtain solutions in reasonable computation times. The algorithms' solutions are compared to optimal solutions and their performances are evaluated in terms of solution quality and CPU time.

Original language	English
Pages (from-to)	39-48
Number of pages	10
Journal	Journal of Air Transport Management
Volume	32
DOIs	https://doi.org/10.1016/j.jairtraman.2013.06.001
Publication status	Published - Sept 2013
Externally published	Yes

Funding

This research has been supported by Qatar National Research Fund under Grant Number NPRP09-253-2-103 .

Funders	Funder number
Qatar National Research Fund	NPRP09-253-2-103

Keywords

Aircraft sequencing problem
Greedy algorithms
Metaheuristics
Sequence-dependent separation times
Total weighted tardiness

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10.1016/j.jairtraman.2013.06.001

Cite this

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title = "Greedy algorithms and metaheuristics for a multiple runway combined arrival-departure aircraft sequencing problem",

abstract = "This paper examines the Aircraft Sequencing Problem (ASP) over multiple runways, under mixed mode operations with the objective of minimizing the total weighted tardiness of aircraft landings and departures simultaneously. The ASP can be modeled as a parallel machine scheduling problem with unequal ready-times, target times and deadlines. Furthermore, sequence-dependent separation times on each runway are considered to prevent the dangers associated with wake-vortex effects. Due to the problem being NP-hard, greedy heuristics and metaheuristics are applied in this paper to obtain solutions in reasonable computation times. The algorithms' solutions are compared to optimal solutions and their performances are evaluated in terms of solution quality and CPU time.",

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AU - Hancerliogullari, Gulsah

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AU - Al-Salem, Ameer H.

AU - Kharbeche, Mohamed

PY - 2013/9

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N2 - This paper examines the Aircraft Sequencing Problem (ASP) over multiple runways, under mixed mode operations with the objective of minimizing the total weighted tardiness of aircraft landings and departures simultaneously. The ASP can be modeled as a parallel machine scheduling problem with unequal ready-times, target times and deadlines. Furthermore, sequence-dependent separation times on each runway are considered to prevent the dangers associated with wake-vortex effects. Due to the problem being NP-hard, greedy heuristics and metaheuristics are applied in this paper to obtain solutions in reasonable computation times. The algorithms' solutions are compared to optimal solutions and their performances are evaluated in terms of solution quality and CPU time.

AB - This paper examines the Aircraft Sequencing Problem (ASP) over multiple runways, under mixed mode operations with the objective of minimizing the total weighted tardiness of aircraft landings and departures simultaneously. The ASP can be modeled as a parallel machine scheduling problem with unequal ready-times, target times and deadlines. Furthermore, sequence-dependent separation times on each runway are considered to prevent the dangers associated with wake-vortex effects. Due to the problem being NP-hard, greedy heuristics and metaheuristics are applied in this paper to obtain solutions in reasonable computation times. The algorithms' solutions are compared to optimal solutions and their performances are evaluated in terms of solution quality and CPU time.

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KW - Metaheuristics

KW - Sequence-dependent separation times

KW - Total weighted tardiness

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Greedy algorithms and metaheuristics for a multiple runway combined arrival-departure aircraft sequencing problem

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