An efficient Bee Colony Optimization algorithm for Traveling Salesman Problem using frequency-based pruning

In a bee colony, bees perform waggle dance in order to communicate the information of food source to their hive mates. This foraging behaviour has been adapted in a bee colony optimization (BCO) algorithm together with 2-opt local search to solve the traveling salesman problem (TSP). To reduce the h...

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Hauptverfasser:	Li-Pei Wong, Low, M.Y.H., Chin Soon Chong
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Benchmark testing Cities and towns Costs Food manufacturing Food technology Frequency Insects Logistics Routing Traveling salesman problems
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creator	Li-Pei Wong Low, M.Y.H. Chin Soon Chong
description	In a bee colony, bees perform waggle dance in order to communicate the information of food source to their hive mates. This foraging behaviour has been adapted in a bee colony optimization (BCO) algorithm together with 2-opt local search to solve the traveling salesman problem (TSP). To reduce the high overhead incurred by 2-opt in the BCO algorithm proposed previously, two mechanisms named frequency-based pruning strategy (FBPS) and fixed-radius near neighbour (FRNN) 2-opt are presented. FBPS suggests that only a subset of promising solutions are allowed to perform 2-opt based on the accumulated frequency of its building blocks recorded in a matrix. FRNN 2-opt is an efficient implementation of 2-opt which exploits the geometric structure in a permutation of TSP sequence. Both mechanisms are tested on a set of TSP benchmark problems and the results show that they are able to achieve a 58.42% improvement while maintaining the solution quality at 0.02% from known optimal.
doi_str_mv	10.1109/INDIN.2009.5195901
format	Conference Proceeding
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subjects	Benchmark testing Cities and towns Costs Food manufacturing Food technology Frequency Insects Logistics Routing Traveling salesman problems
title	An efficient Bee Colony Optimization algorithm for Traveling Salesman Problem using frequency-based pruning
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