The realization-independent reallocation heuristic for the stochastic container relocation problem

The container relocation problem is one of the most relevant problems in the logistics of containers. It consists in finding the minimum number of moves that are needed to retrieve all the containers located in a bay, according to a given retrieval order. Unfortunately, such an order may be subject...

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Published inSoft computing (Berlin, Germany) Vol. 27; no. 7; pp. 4223 - 4233
Main Authors Bacci, Tiziano, Mattia, Sara, Ventura, Paolo
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.04.2023
Subjects
Artificial Intelligence
Computational Intelligence
Control
Engineering
Focus
Mathematical Logic and Foundations
Mechatronics
Robotics
Uncertainty
Stochastic container relocation problem
Block relocation problem
Heuristic
Online AccessGet full text
ISSN1432-7643
1433-7479
DOI10.1007/s00500-022-07070-3

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Abstract The container relocation problem is one of the most relevant problems in the logistics of containers. It consists in finding the minimum number of moves that are needed to retrieve all the containers located in a bay, according to a given retrieval order. Unfortunately, such an order may be subject to uncertainty. The variant of the problem that takes such issue into account is known as the stochastic container relocation problem. In this case, the containers are partitioned into batches. The retrieval order among the batches is known, while that of the containers of the same batch is uncertain and becomes available only when the last container of the previous batch is retrieved. The solution approaches proposed so far in the literature present a common pitfall concerning the complexity of the produced solutions, whose size can grow exponentially with the number of blocks. Here we present a new ad hoc heuristic approach for the problem that applies a suitable reduction of the solution space. Computational experiments on a set of instances taken from the literature are performed. The proposed methodology is able to solve instances that was not possible to solve before. This makes the procedure very appealing also for being applied in practice. Statistics showing how the performances are affected by the size of the instances are also presented.
AbstractList The container relocation problem is one of the most relevant problems in the logistics of containers. It consists in finding the minimum number of moves that are needed to retrieve all the containers located in a bay, according to a given retrieval order. Unfortunately, such an order may be subject to uncertainty. The variant of the problem that takes such issue into account is known as the stochastic container relocation problem. In this case, the containers are partitioned into batches. The retrieval order among the batches is known, while that of the containers of the same batch is uncertain and becomes available only when the last container of the previous batch is retrieved. The solution approaches proposed so far in the literature present a common pitfall concerning the complexity of the produced solutions, whose size can grow exponentially with the number of blocks. Here we present a new ad hoc heuristic approach for the problem that applies a suitable reduction of the solution space. Computational experiments on a set of instances taken from the literature are performed. The proposed methodology is able to solve instances that was not possible to solve before. This makes the procedure very appealing also for being applied in practice. Statistics showing how the performances are affected by the size of the instances are also presented.
Author Bacci, Tiziano
Ventura, Paolo
Mattia, Sara
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Keywords Uncertainty
Stochastic container relocation problem
Block relocation problem
Heuristic
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References ZhuWQinHLimAZhangHIterative deepening A∗\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$A^*$$\end{document} algorithms for the container relocation problemIEEE Trans Autom Sci Eng20129471072210.1109/TASE.2012.2198642
MattiaSRossiFServilioMSmriglioSStaffing and scheduling flexible call centers by two-stage robust optimizationOmega201772253710.1016/j.omega.2016.11.001
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Bacci T. http://www.iasi.cnr.it/~tbacci
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BacciTConteSMateraDMattiaSVentura PaoloPA new software system for optimizing the operations at a container terminal2019ChamSpringer International Publishing4150
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IzquierdoCEBatistaBMVegaJMMAn exact approach for the blocks relocation problemExpert Syst Appl201542176408642210.1016/j.eswa.2015.04.021
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MattiaSThe robust network loading problem with dynamic routingComput Optim Appl2013543619643302931110.1007/s10589-012-9500-01271.90099
BacciTMattiaSVenturaPSome complexity results for the minimum blocking items problem. optimization and decision science: methodologies and applications2017ChamSpringer International Publishing
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C Zhang (7070_CR27) 2020; 139
V Galle (7070_CR10) 2018; 52
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R Jovanovic (7070_CR13) 2014; 75
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– reference: GalleVManshadiVBorjian BoroujeniSBarnhartCJailletPThe stochastic container relocation problemTransp Sci20185251035105810.1287/trsc.2018.08281408.90161
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Snippet The container relocation problem is one of the most relevant problems in the logistics of containers. It consists in finding the minimum number of moves that...
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Computational Intelligence
Control
Engineering
Focus
Mathematical Logic and Foundations
Mechatronics
Robotics
Title The realization-independent reallocation heuristic for the stochastic container relocation problem
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