Finding the Shortest Hamiltonian Circuit of Selected Places in Penang Using a Generic Bee Colony Optimization Framework

Identifying the shortest Hamiltonian circuit is a task which appears in various types of industrial and logistics applications. It is a NP-hard problem [1]. This paper intends to find the shortest Hamiltonian circuit of the selected 68 towns/cities in Penang state, Malaysia using the generic Bee Col...

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Hauptverfasser:	Li-Pei Wong, Low, M. Y. H., Chin Soon Chong
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Approximation algorithms Bee colony optimization Biological cells Cities and towns Encoding generic framework Genetic algorithms Hamiltonian circuit metaheuristic Optimization Penang Symmetric matrices
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creator	Li-Pei Wong Low, M. Y. H. Chin Soon Chong
description	Identifying the shortest Hamiltonian circuit is a task which appears in various types of industrial and logistics applications. It is a NP-hard problem [1]. This paper intends to find the shortest Hamiltonian circuit of the selected 68 towns/cities in Penang state, Malaysia using the generic Bee Colony Optimization (BCO) framework [2]. The proposed BCO framework realizes computationally the foraging process and waggle dance performed by bees and it is enriched with elitism, local optimization and adaptive pruning. A modification has been applied to the framework whereby a past solutions reinforcement policy is integrated. Also, the local optimization method is enhanced with the utilization of a Tabu list. The results from this study serve as an significant input to the preparation of logistics plan when a natural disaster occurs. Aiding resources can be delivered to affected areas, one after another, in a more appropriate and systematic manner and thus leads to cost and time saving. The results show that proposed BCO framework is able to produce a circuit (based on great-circle distance) with length of 263.332016km within 1.32s. The performance of the proposed BCO framework is comparable to the Genetic Algorithm and Lin-Ker heuristic.
doi_str_mv	10.1109/BIC-TA.2011.5
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H.</au><au>Chin Soon Chong</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Finding the Shortest Hamiltonian Circuit of Selected Places in Penang Using a Generic Bee Colony Optimization Framework</atitle><btitle>2011 Sixth International Conference on Bio-Inspired Computing: Theories and Applications</btitle><stitle>bic-ta</stitle><date>2011-09</date><risdate>2011</risdate><spage>51</spage><epage>57</epage><pages>51-57</pages><isbn>1457710927</isbn><isbn>9781457710926</isbn><abstract>Identifying the shortest Hamiltonian circuit is a task which appears in various types of industrial and logistics applications. It is a NP-hard problem [1]. This paper intends to find the shortest Hamiltonian circuit of the selected 68 towns/cities in Penang state, Malaysia using the generic Bee Colony Optimization (BCO) framework [2]. The proposed BCO framework realizes computationally the foraging process and waggle dance performed by bees and it is enriched with elitism, local optimization and adaptive pruning. A modification has been applied to the framework whereby a past solutions reinforcement policy is integrated. Also, the local optimization method is enhanced with the utilization of a Tabu list. The results from this study serve as an significant input to the preparation of logistics plan when a natural disaster occurs. Aiding resources can be delivered to affected areas, one after another, in a more appropriate and systematic manner and thus leads to cost and time saving. The results show that proposed BCO framework is able to produce a circuit (based on great-circle distance) with length of 263.332016km within 1.32s. 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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Approximation algorithms Bee colony optimization Biological cells Cities and towns Encoding generic framework Genetic algorithms Hamiltonian circuit metaheuristic Optimization Penang Symmetric matrices
title	Finding the Shortest Hamiltonian Circuit of Selected Places in Penang Using a Generic Bee Colony Optimization Framework
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