基于精英混沌局部搜索的多目标交叉熵算法

2019 IEEE 14th International Conference on Intelligent Systems and Knowledge Engineering (ISKE) Pub Date : 2019-11-01 DOI:10.1109/ISKE47853.2019.9170283

Duo Zhao, Xiaying Zhang

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引用次数: 1

摘要

交叉熵优化算法(Cross-Entropy optimization algorithm, CE)以其准确、鲁棒等特点，近年来引起了学术界的广泛关注。CE算法的一个主要缺点是容易陷入局部最优。为了提高精英混沌多目标交叉熵(ECCE)算法面对复杂多模态函数的搜索能力，提出了一种先进的精英混沌多目标交叉熵(ECCE)算法。与原算法相比，ECCE算法选择一个精英个体执行混沌局部搜索策略。在算法的初始阶段，混沌局部搜索可以探索搜索空间，避免过早收敛;在最后阶段，混沌局部搜索可以缩小搜索区域，精确定位最优解。通过标准测试函数对ECCE算法进行了验证，仿真结果表明ECCE算法在优化多峰函数方面具有一定的优势。

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A Multi-Objective Cross Entropy Algorithm Based on Elite Chaotic Local Search

Cross-Entropy (CE) optimization algorithm, whose characteristics are accurate and robust, has attracted widespread academic attention in recent years. A major drawback of CE algorithm is that it tends to be trapped in local optima. An advanced elite chaotic multi-objective cross entropy (ECCE) algorithm is proposed to enhance the search capability of CE algorithm confronting complex multimodal functions. Compared with the original algorithm, ECCE algorithm selects an elite individual to execute chaotic local search strategy. In the initial stage of algorithm, chaotic local search could explore search space to avoid premature convergence, it could also narrow search region in final stage to accurately locate optimal solution. The ECCE algorithm has been validated by standard test functions, and simulation results show that ECCE algorithm has certain advantages in optimizing multi-peak functions.

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2019 IEEE 14th International Conference on Intelligent Systems and Knowledge Engineering (ISKE)

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