Adaptive iterated local search for quadratic assignment problem

Iterated Local Search (ILS) is one of the classical metaheuristics that is frequently used for solving the Quadratic Assignment Problem (QAP), a commonly studied NP-hard combinatorial optimization problem. Despite the effectiveness shown by the ILS when solving the QAP, many possible enhancements ca...

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Hauptverfasser:	Hussin, Mohamed Saifullah, Basir, Mohammad Aizat
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Algorithms Assignment problem Combinatorial analysis Design optimization Heuristic methods Network design Operations research Perturbation Vehicle routing
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creator	Hussin, Mohamed Saifullah Basir, Mohammad Aizat
description	Iterated Local Search (ILS) is one of the classical metaheuristics that is frequently used for solving the Quadratic Assignment Problem (QAP), a commonly studied NP-hard combinatorial optimization problem. Despite the effectiveness shown by the ILS when solving the QAP, many possible enhancements can still be implemented, based on studies conducted on other combinatorial problems, for example vertex coloring problem, vehicle routing problem, network design optimization, and many others. Among possible approaches for improving the ILS are by implementing adaptive ILS and multi-start strategy. Adaptive ILS is implemented by dynamically changing the perturbation strength of ILS during the run, which focus on developing a robust algorithm that can solve a wide range of instances. Multi-start strategy on the other hand, focus on applying restart or diversification during ILS run to prevent early stagnation. Adaptive ILS with frequent and large perturbation strength change has shown the best overall result when it has obtained the lowest deviation to the best-known solution compared to others. Implementation of Multi-start strategy showed bad performance, except on Taillard75e instance, in which it frequently found the best-known solution compared to others. Both adaptive and multi-start strategy have shown interesting results that may be further studied for ILS improvement.
doi_str_mv	10.1063/5.0173389
format	Conference Proceeding
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Despite the effectiveness shown by the ILS when solving the QAP, many possible enhancements can still be implemented, based on studies conducted on other combinatorial problems, for example vertex coloring problem, vehicle routing problem, network design optimization, and many others. Among possible approaches for improving the ILS are by implementing adaptive ILS and multi-start strategy. Adaptive ILS is implemented by dynamically changing the perturbation strength of ILS during the run, which focus on developing a robust algorithm that can solve a wide range of instances. Multi-start strategy on the other hand, focus on applying restart or diversification during ILS run to prevent early stagnation. Adaptive ILS with frequent and large perturbation strength change has shown the best overall result when it has obtained the lowest deviation to the best-known solution compared to others. 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Despite the effectiveness shown by the ILS when solving the QAP, many possible enhancements can still be implemented, based on studies conducted on other combinatorial problems, for example vertex coloring problem, vehicle routing problem, network design optimization, and many others. Among possible approaches for improving the ILS are by implementing adaptive ILS and multi-start strategy. Adaptive ILS is implemented by dynamically changing the perturbation strength of ILS during the run, which focus on developing a robust algorithm that can solve a wide range of instances. Multi-start strategy on the other hand, focus on applying restart or diversification during ILS run to prevent early stagnation. Adaptive ILS with frequent and large perturbation strength change has shown the best overall result when it has obtained the lowest deviation to the best-known solution compared to others. 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subjects	Algorithms Assignment problem Combinatorial analysis Design optimization Heuristic methods Network design Operations research Perturbation Vehicle routing
title	Adaptive iterated local search for quadratic assignment problem
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