Multiobjective Departure Runway Scheduling Using Dynamic Programming

Montoya, Justin V.; Rathinam, Sivakumar; Wood, Zachary

doi:10.1109/tits.2013.2283256

Cited by 37 publications

(22 citation statements)

References 37 publications

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“…During the initialization of agents, a random bit string, , is generated for each agent. During the generation of solution, the term in (5) is mapped into a probabilistic value in the range of [0,1] using a mapping function, , as follows: (7) where . Then, the probabilistic value is compared to a random number, rand , to update the solution If the random number is smaller than the probabilistic value, the binary number at that particular dimension is complemented.…”

Section: The Binary Simulated Kalman Filtermentioning

confidence: 99%

“…Examples of numerical optimization problems are Proportional-Integral-Derivative (PID) tuning in control applications [1], training of a neural network [2], adaptive beamforming [3], and engineering design problems [4]. On the other hand, combinatorial optimization or discrete problems concern with the best combination of a set of variables such as in traveling salesman problems [5], assembly sequence planning [6], scheduling for airport [7] and classroom [8], routing in integrated circuits [9], and feature selection [10]. In solving discrete and combinatorial optimization problems, metaheuristic algorithms such genetic algorithm (GA) [11] and ant colony optimization (ACO) [12] have been developed to operate in binary search space.…”

Section: Introductionmentioning

confidence: 99%

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Distance Evaluated Simulated Kalman Filter with State Encoding for Combinatorial Optimization Problems

Yusof¹,

Ibrahim²,

Adam³

et al. 2018

IJET

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Simulated Kalman Filter (SKF) is a population-based optimization algorithm which exploits the estimation capability of Kalman filter to search for a solution in a continuous search space. The SKF algorithm only capable to solve numerical optimization problems which involve continuous search space. Some problems, such as routing and scheduling, involve binary or discrete search space. At present, there are three modifications to the original SKF algorithm in solving combinatorial optimization problems. Those modified algorithms are binary SKF (BSKF), angle modulated SKF (AMSKF), and distance evaluated SKF (DESKF). These three combinatorial SKF algorithms use binary encoding to represent the solution to a combinatorial optimization problem. This paper introduces the latest version of distance evaluated SKF which uses state encoding, instead of binary encoding, to represent the solution to a combinatorial problem. The algorithm proposed in this paper is called state-encoded distance evaluated SKF (SEDESKF) algorithm. Since the original SKF algorithm tends to converge prematurely, the distance is handled differently in this study. To control and exploration and exploitation of the SEDESKF algorithm, the distance is normalized. The performance of the SEDESKF algorithm is compared against the existing combinatorial SKF algorithm based on a set of Traveling Salesman Problem (TSP).

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Section: The Binary Simulated Kalman Filtermentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Distance Evaluated Simulated Kalman Filter with State Encoding for Combinatorial Optimization Problems

Yusof¹,

Ibrahim²,

Adam³

et al. 2018

IJET

View full text Add to dashboard Cite

show abstract

“…The runway scheduling problem has been studied in various ways. In particular, many common solution techniques used for job-shop scheduling problems, such as dynamic programming 9,11,20,22 , heuristics 24 , as well as Mixed Integer Linear Programming (MILP)-based optimization model 3,4,13,8,10 , were applied to runway scheduling problems. Ref.…”

Section: B Runway Scheduling Problemmentioning

confidence: 99%

Optimization of Airport Surface Traffic: A Case-study of Incheon International Airport

Eun

Jeon

Lee

et al. 2017

17th AIAA Aviation Technology, Integration, and Operations Conference

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This study aims to develop a controllers decision support tool for departure and surface management of ICN. Airport surface traffic optimization for Incheon International Airport (ICN) in South Korea was studied based on the operational characteristics of ICN and airspace of Korea. For surface traffic optimization, a multiple runway scheduling problem and a taxi scheduling problem were formulated into two Mixed Integer Linear Programming (MILP) optimization models. The Miles-In-Trail (MIT) separation constraint at the departure fix shared by the departure flights from multiple runways and the runway crossing constraints due to the taxi route configuration specific to ICN were incorporated into the runway scheduling and taxiway scheduling problems, respectively. Since the MILPbased optimization model for the multiple runway scheduling problem may be computationally intensive, computation times and delay costs of different solving methods were compared for a practical implementation. This research was a collaboration between Korea Aerospace Research Institute (KARI) and National Aeronautics and Space Administration (NASA).

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“…There are many dynamic programming formulations for various types of runway scheduling. [8][9][10][11][12][13] The proposed algorithm uses a state definition similar to the one in Ref. [8] and [10] and adds additional information to the state to handle the constraints specific to SRS.…”

Section: A Exact Dynamic Programming (Edp) Formulationmentioning

confidence: 99%

“…A common objective is to minimize the completion time (runway-use time) of the last job, which is equivalent to maximizing throughput. Hence, many of the solution techniques commonly used for solving the job shop scheduling problems have been adapted to the runway scheduling problem; e.g., mixed integer linear programs, [5][6] branch and bound, 7 dynamic programming, [8][9][10][11][12][13] heuristics, [14][15][16] metaheuristics, [17][18] and others. The sequence dependent job shop scheduling problem is strongly NPhard, and consequently, it is not expected to find polynomial time algorithms for the runway scheduling problem.…”

Section: Introductionmentioning

confidence: 99%

Exact and Heuristic Algorithms for Runway Scheduling

Malik

Jung

2016

16th AIAA Aviation Technology, Integration, and Operations Conference

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This paper explores the Single Runway Scheduling (SRS) problem with arrivals, departures, and crossing aircraft on the airport surface. Constraints for wake vortex separations, departure area navigation separations and departure time window restrictions are explicitly considered. The main objective of this research is to develop exact and heuristic based algorithms that can be used in real-time decision support tools for Air Traffic Control Tower (ATCT) controllers. The paper provides a multi-objective dynamic programming (DP) based algorithm that finds the exact solution to the SRS problem, but may prove unusable for application in real-time environment due to large computation times for moderate sized problems. We next propose a second algorithm that uses heuristics to restrict the search space for the DP based algorithm. A third algorithm based on a combination of insertion and local search (ILS) heuristics is then presented. Simulation conducted for the east side of Dallas/Fort Worth International Airport allows comparison of the three proposed algorithms and indicates that the ILS algorithm performs favorably in its ability to find efficient solutions and its computation times.

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Multiobjective Departure Runway Scheduling Using Dynamic Programming

Cited by 37 publications

References 37 publications

Distance Evaluated Simulated Kalman Filter with State Encoding for Combinatorial Optimization Problems

Distance Evaluated Simulated Kalman Filter with State Encoding for Combinatorial Optimization Problems

Optimization of Airport Surface Traffic: A Case-study of Incheon International Airport

Exact and Heuristic Algorithms for Runway Scheduling

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