Exact methods for the quay crane scheduling problem when tasks are modeled at the single container level

•The scheduling problem of quay cranes in container terminal is studied.•Different technical constraints related to the quay cranes are considered.•Two exact methods are proposed to provide optimal schedules.•A construction heuristic is developed to provide near-optimal solutions.•Computational expe...

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Published inComputers & operations research Vol. 99; pp. 218 - 233
Main Authors Msakni, Mohamed Kais, Diabat, Ali, Rabadi, Ghaith, Al-Salem, Mohamed, Kotachi, Mariam
Format Journal Article
LanguageEnglish
Published New York Elsevier Ltd 01.11.2018
Pergamon Press Inc
Subjects
Central processing units
Constraint modelling
Container terminals
Containers
CPUs
Cranes
Integer programming
Mathematical models
Mixed-integer programming
Operations research
Quay crane scheduling problem
Safety margins
Scheduling
Search algorithms
Studies
Task scheduling
Transport buildings, stations and terminals
Quay crane scheduling problem
Scheduling
Container terminals
Mixed-integer programming
Online AccessGet full text
ISSN0305-0548
1873-765X
0305-0548
DOI10.1016/j.cor.2018.07.005

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Abstract •The scheduling problem of quay cranes in container terminal is studied.•Different technical constraints related to the quay cranes are considered.•Two exact methods are proposed to provide optimal schedules.•A construction heuristic is developed to provide near-optimal solutions.•Computational experiments show the efficiency of the proposed methods. The scheduling of quay cranes (QCs) to minimize the handling time of a berthed vessel is one of the most important operations in container terminals as it impacts the terminal’s overall productivity. In this paper, we propose two exact methods to solve the quay crane scheduling problem (QCSP) where a task is defined as handling a single container and subject to different technical constraints including QCs’ safety margin, non-crossing, initial position, and nonzero traveling time. The first method is based on two versions of a compact mixed-integer programming formulation that can solve large problem instances using a general purpose solver. The second is a combination of some constraints of the proposed mathematical model and the binary search algorithm to reduce the CPU time, and solve more efficiently large-sized problems. Unlike existing studies, the computational study demonstrates that both methods can reach optimal solutions for large-sized instances and validates their dominance compared to an exact model proposed in the literature which finds solutions only for small problems.
AbstractList •The scheduling problem of quay cranes in container terminal is studied.•Different technical constraints related to the quay cranes are considered.•Two exact methods are proposed to provide optimal schedules.•A construction heuristic is developed to provide near-optimal solutions.•Computational experiments show the efficiency of the proposed methods. The scheduling of quay cranes (QCs) to minimize the handling time of a berthed vessel is one of the most important operations in container terminals as it impacts the terminal’s overall productivity. In this paper, we propose two exact methods to solve the quay crane scheduling problem (QCSP) where a task is defined as handling a single container and subject to different technical constraints including QCs’ safety margin, non-crossing, initial position, and nonzero traveling time. The first method is based on two versions of a compact mixed-integer programming formulation that can solve large problem instances using a general purpose solver. The second is a combination of some constraints of the proposed mathematical model and the binary search algorithm to reduce the CPU time, and solve more efficiently large-sized problems. Unlike existing studies, the computational study demonstrates that both methods can reach optimal solutions for large-sized instances and validates their dominance compared to an exact model proposed in the literature which finds solutions only for small problems.
The scheduling of quay cranes (QCs) to minimize the handling time of a berthed vessel is one of the most important operations in container terminals as it impacts the terminal’s overall productivity. In this paper, we propose two exact methods to solve the quay crane scheduling problem (QCSP) where a task is defined as handling a single container and subject to different technical constraints including QCs’ safety margin, non-crossing, initial position, and nonzero traveling time. The first method is based on two versions of a compact mixed-integer programming formulation that can solve large problem instances using a general purpose solver. The second is a combination of some constraints of the proposed mathematical model and the binary search algorithm to reduce the CPU time, and solve more efficiently large-sized problems. Unlike existing studies, the computational study demonstrates that both methods can reach optimal solutions for large-sized instances and validates their dominance compared to an exact model proposed in the literature which finds solutions only for small problems.
Author Msakni, Mohamed Kais
Kotachi, Mariam
Rabadi, Ghaith
Diabat, Ali
Al-Salem, Mohamed
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  organization: Department of Engineering Management & Systems Engineering, Old Dominion University, Norfolk, VA 23529, United States
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Keywords Quay crane scheduling problem
Scheduling
Container terminals
Mixed-integer programming
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Snippet •The scheduling problem of quay cranes in container terminal is studied.•Different technical constraints related to the quay cranes are considered.•Two exact...
The scheduling of quay cranes (QCs) to minimize the handling time of a berthed vessel is one of the most important operations in container terminals as it...
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elsevier
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SubjectTerms Central processing units
Constraint modelling
Container terminals
Containers
CPUs
Cranes
Integer programming
Mathematical models
Mixed-integer programming
Operations research
Quay crane scheduling problem
Safety margins
Scheduling
Search algorithms
Studies
Task scheduling
Transport buildings, stations and terminals
Title Exact methods for the quay crane scheduling problem when tasks are modeled at the single container level
URI https://dx.doi.org/10.1016/j.cor.2018.07.005
https://www.proquest.com/docview/2112647725
Volume 99
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