A hyper-heuristic with two guidance indicators for bi-objective mixed-shift vehicle routing problem with time windows
© 2018, The Author(s). In this paper, a Mixed-Shift Vehicle Routing Problem is proposed based on a real-life container transportation problem. In a long planning horizon of multiple shifts, transport tasks are completed satisfying the time constraints. Due to the different travel distances and time...
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th-mahidol.455402019-08-23T17:53:35Z A hyper-heuristic with two guidance indicators for bi-objective mixed-shift vehicle routing problem with time windows Binhui Chen Rong Qu Ruibin Bai Wasakorn Laesanklang University of Nottingham Ningbo China South Carolina Commission on Higher Education University of Nottingham Mahidol University Computer Science © 2018, The Author(s). In this paper, a Mixed-Shift Vehicle Routing Problem is proposed based on a real-life container transportation problem. In a long planning horizon of multiple shifts, transport tasks are completed satisfying the time constraints. Due to the different travel distances and time of tasks, there are two types of shifts (long shift and short shift) in this problem. The unit driver cost for long shifts is higher than that of short shifts. A mathematical model of this Mixed-Shift Vehicle Routing Problem with Time Windows (MS-VRPTW) is established in this paper, with two objectives of minimizing the total driver payment and the total travel distance. Due to the large scale and nonlinear constraints, the exact search showed is not suitable to MS-VRPTW. An initial solution construction heuristic (EBIH) and a selective perturbation Hyper-Heuristic (GIHH) are thus developed. In GIHH, five heuristics with different extents of perturbation at the low level are adaptively selected by a high level selection scheme with the Hill Climbing acceptance criterion. Two guidance indicators are devised at the high level to adaptively adjust the selection of the low level heuristics for this bi-objective problem. The two indicators estimate the objective value improvement and the improvement direction over the Pareto Front, respectively. To evaluate the generality of the proposed algorithms, a set of benchmark instances with various features is extracted from real-life historical datasets. The experiment results show that GIHH significantly improves the quality of the final Pareto Solution Set, outperforming the state-of-the-art algorithms for similar problems. Its application on VRPTW also obtains promising results. 2019-08-23T10:53:35Z 2019-08-23T10:53:35Z 2018-12-01 Article Applied Intelligence. Vol.48, No.12 (2018), 4937-4959 10.1007/s10489-018-1250-y 15737497 0924669X 2-s2.0-85051658549 https://repository.li.mahidol.ac.th/handle/123456789/45540 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85051658549&origin=inward |
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Computer Science Binhui Chen Rong Qu Ruibin Bai Wasakorn Laesanklang A hyper-heuristic with two guidance indicators for bi-objective mixed-shift vehicle routing problem with time windows |
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© 2018, The Author(s). In this paper, a Mixed-Shift Vehicle Routing Problem is proposed based on a real-life container transportation problem. In a long planning horizon of multiple shifts, transport tasks are completed satisfying the time constraints. Due to the different travel distances and time of tasks, there are two types of shifts (long shift and short shift) in this problem. The unit driver cost for long shifts is higher than that of short shifts. A mathematical model of this Mixed-Shift Vehicle Routing Problem with Time Windows (MS-VRPTW) is established in this paper, with two objectives of minimizing the total driver payment and the total travel distance. Due to the large scale and nonlinear constraints, the exact search showed is not suitable to MS-VRPTW. An initial solution construction heuristic (EBIH) and a selective perturbation Hyper-Heuristic (GIHH) are thus developed. In GIHH, five heuristics with different extents of perturbation at the low level are adaptively selected by a high level selection scheme with the Hill Climbing acceptance criterion. Two guidance indicators are devised at the high level to adaptively adjust the selection of the low level heuristics for this bi-objective problem. The two indicators estimate the objective value improvement and the improvement direction over the Pareto Front, respectively. To evaluate the generality of the proposed algorithms, a set of benchmark instances with various features is extracted from real-life historical datasets. The experiment results show that GIHH significantly improves the quality of the final Pareto Solution Set, outperforming the state-of-the-art algorithms for similar problems. Its application on VRPTW also obtains promising results. |
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University of Nottingham Ningbo China |
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University of Nottingham Ningbo China Binhui Chen Rong Qu Ruibin Bai Wasakorn Laesanklang |
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Article |
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Binhui Chen Rong Qu Ruibin Bai Wasakorn Laesanklang |
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Binhui Chen |
title |
A hyper-heuristic with two guidance indicators for bi-objective mixed-shift vehicle routing problem with time windows |
title_short |
A hyper-heuristic with two guidance indicators for bi-objective mixed-shift vehicle routing problem with time windows |
title_full |
A hyper-heuristic with two guidance indicators for bi-objective mixed-shift vehicle routing problem with time windows |
title_fullStr |
A hyper-heuristic with two guidance indicators for bi-objective mixed-shift vehicle routing problem with time windows |
title_full_unstemmed |
A hyper-heuristic with two guidance indicators for bi-objective mixed-shift vehicle routing problem with time windows |
title_sort |
hyper-heuristic with two guidance indicators for bi-objective mixed-shift vehicle routing problem with time windows |
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2019 |
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https://repository.li.mahidol.ac.th/handle/123456789/45540 |
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1763489847011442688 |