将进化算法与kd树相结合解决动态优化问题

2013 International Conference on Soft Computing and Pattern Recognition (SoCPaR) Pub Date : 2013-12-01 DOI:10.1109/SOCPAR.2013.7054136

Trung-Thanh Nguyen, I. Jenkinson, Zaili Yang

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引用次数: 8

摘要

本文提出了一种新的进化算法，该算法能够自适应地分离探索区域和未探索区域，以方便检测变化和跟踪移动的最优点。该算法将搜索空间划分为多个区域，每个区域覆盖搜索空间中的一个吸引盆地，并跟踪相应的移动最优。利用一种简单的机制来估计每个最优的吸引力盆地，并使用一种特殊的数据结构KD-Tree来记忆搜索区域，以加快搜索过程。实验结果表明，该算法具有一定的竞争力，特别是与那些将变化检测作为动态优化的重要任务的算法相比。与现有的多种群算法相比，新算法在为每个个体识别合适的子种群/区域方面也提供了更低的计算复杂度。

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Solving dynamic optimisation problems by combining evolutionary algorithms with KD-tree

In this paper we propose a novel evolutionary algorithm that is able to adaptively separate the explored and unexplored areas to facilitate detecting changes and tracking the moving optima. The algorithm divides the search space into multiple regions, each covers one basin of attraction in the search space and tracks the corresponding moving optimum. A simple mechanism was used to estimate the basin of attraction for each found optimum, and a special data structure named KD-Tree was used to memorise the searched areas to speed up the search process. Experimental results show that the algorithm is competitive, especially against those that consider change detection an important task in dynamic optimisation. Compared to existing multi-population algorithms, the new algorithm also offers less computational complexity in term of identifying the appropriate sub-population/region for each individual.

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2013 International Conference on Soft Computing and Pattern Recognition (SoCPaR)

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