An adaptive multi-population artificial bee colony algorithm for dynamic optimisation problems
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摘要
Recently, interest in solving real-world problems that change over the time, so called dynamic optimisation problems (DOPs), has grown due to their practical applications. A DOP requires an optimisation algorithm that can dynamically adapt to changes and several methodologies have been integrated with population-based algorithms to address these problems. Multi-population algorithms have been widely used, but it is hard to determine the number of populations to be used for a given problem. This paper proposes an adaptive multi-population artificial bee colony (ABC) algorithm for DOPs. ABC is a simple, yet efficient, nature inspired algorithm for addressing numerical optimisation, which has been successfully used for tackling other optimisation problems. The proposed ABC algorithm has the following features. Firstly it uses multi-populations to cope with dynamic changes, and a clearing scheme to maintain the diversity and enhance the exploration process. Secondly, the number of sub-populations changes over time, to adapt to changes in the search space. The moving peaks benchmark DOP is used to verify the performance of the proposed ABC. Experimental results show that the proposed ABC is superior to the ABC on all tested instances. Compared to state of the art methodologies, our proposed ABC algorithm produces very good results.
论文关键词:Dynamic optimisation,Artificial bee colony algorithm,Adaptive multi-population method,Meta-heuristics
论文评审过程:Received 18 August 2015, Revised 28 February 2016, Accepted 3 April 2016, Available online 8 April 2016, Version of Record 20 May 2016.
论文官网地址:https://doi.org/10.1016/j.knosys.2016.04.005