Order acceptance and scheduling with sequence-dependent setup times: A new memetic algorithm and benchmark of the state of the art

He, Lei; Guijt, Arthur; Weerdt, Mathijs de; Xing, Lining; Yorke-Smith, Neil

doi:10.1016/j.cie.2019.106102

Cited by 26 publications

(6 citation statements)

References 34 publications

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“…Our approach could also be extended to scheduling problems with transition times between tasks, as they are very close to TSP problems and often have DP formulations (van Hoorn, 2016). In some cases, these transition times appear to be TD such as, for example, agile earth observation satellite scheduling problems with TD transition times and TWs (Liu et al, 2017), or order acceptance and scheduling problems with processing times (He et al, 2019).…”

Section: Discussionmentioning

confidence: 99%

Exact and anytime approach for solving the time dependent traveling salesman problem with time windows

Fontaine

Dibangoye

Solnon

2023

European Journal of Operational Research

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Section: Discussionmentioning

confidence: 99%

Exact and anytime approach for solving the time dependent traveling salesman problem with time windows

Fontaine

Dibangoye

Solnon

2023

European Journal of Operational Research

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“…We study them separately. The former is compared with the Priority-Based and Conflict-Avoidance (PBCA) heuristic [40] , and the latter is compared with the Download-As-Needed heuristic (DAN) [41] . The PBCA heuristic prioritizes the positions that have less overlap with other observation tasks, whereas DAN heuristic schedules a download task.…”

Section: Performance Of Position Selection Heuristicsmentioning

confidence: 99%

A Fast Insertion Tabu Search with Conflict-Avoidance Heuristic for the Multisatellite Multimode Crosslink Scheduling Problem

Yang,

He,

Liu

et al. 2024

Tsinghua Sci. Technol.

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An agile earth-observing satellite equipped with multimode cameras capable of transmitting observation data to other satellites is developed to rapidly respond to requests with multiple observation modes. This gives rise to the Multisatellite Multimode Crosslink Scheduling (MMCS) problem, which involves allocating observation requests to agile satellites, selecting appropriate timing and observation modes for the requests, and transmitting the data to the ground station via the satellite communication system. Herein, a mixed integer programming model is introduced to include all complex time and operation constraints. To solve the MMCS problem, a two-stage heuristic method, called Fast insertion Tabu Search with Conflict-avoidance (FTS-C) heuristic, is developed. In the first stage, a conflict-avoidance insertion algorithm is designed to generate a high-quality initial solution by considering the requests transmission and download. Further, the tabu search-based second stage optimizes the initial solution. Finally, an extensive empirical study based on a real-world situation demonstrates that FTS-C can generate a solution with higher quality in less time than other state-of-the-art algorithms and the CPLEX solver.

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“…There are many studies that have tried to solve the same problem using different solution methods and comparing the models in terms of their efficiency. A tabu search algorithm, an exact branch-andbound with genetic programming, an artificial bee colony based hyper-heuristic algorithm, a diversity controlling genetic algorithm, a dispatching-rule-based genetic algorithm, a hybrid particle swarm optimization method with tabu search using dispatching rules learned by genetic programming, and a more recent study with a memetic algorithm includes hybridization of biased random key genetic algorithm with an adaptive large neighborhood search was developed to handle this problem [8][9][10]. A fuzzy mathematical model of the same problem was examined using fuzzy times [11].…”

Section: Literature Reviewmentioning

confidence: 99%

Fuzzy Order Acceptance and Scheduling on Identical Parallel Machines

Barak

Koyuncu

2021

Symmetry

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In this study, we focus on the fuzzy order acceptance and scheduling problem in identical parallel machines (FOASIPM), which is a scheduling and optimization problem to decide whether the firm should accept or outsource the order. In general, symmetry is a fundamental property of optimization models used to represent binary relations such as the FOASIPM problem. Symmetry in optimization problems can be considered as an engineering tool to support decision-making. We develop a fuzzy mathematical model (FMM) and a Genetic Algorithm (GA) with two crossover operators. The FOASIPM is formulated as an FMM where the objective is to maximize the total net profit, which includes the revenue, the penalty of tardiness, and the outsourcing. The performance of the proposed methods is tested on the sets of data with orders that are defined by fuzzy durations. We use the signed distance method to handle the fuzzy parameters. While FMM reaches the optimal solution in a reasonable time for datasets with a small number of orders, it cannot find a solution for datasets with a large number of orders due to the NP-hard nature of the problem. Genetic algorithms provide fast solutions for datasets with a medium and large number of orders.

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Order acceptance and scheduling with sequence-dependent setup times: A new memetic algorithm and benchmark of the state of the art

Cited by 26 publications

References 34 publications

Exact and anytime approach for solving the time dependent traveling salesman problem with time windows

Exact and anytime approach for solving the time dependent traveling salesman problem with time windows

A Fast Insertion Tabu Search with Conflict-Avoidance Heuristic for the Multisatellite Multimode Crosslink Scheduling Problem

Fuzzy Order Acceptance and Scheduling on Identical Parallel Machines

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