Differential Evolution Inspired Clone Immune Multi-objective Optimization Algorithm

2010 International Conference on Electrical and Control Engineering Pub Date : 2010-06-25 DOI:10.1109/ICECE.2010.218

Xu Bin, Wang Honggang, Qi Rongbin, Q. Feng

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引用次数: 2

Abstract

This paper proposes a novel multi-objective optimization algorithm: differential evolution inspired clone immune multi-objective optimization algorithm (DECIMO). The novel algorithm uses a space-filling experimental design named symmetric Latin hypercube design (SLHD) to initialize the population which can obviously improve the uniformity of the individual distribution. A permutation of population individual indexes is generated and then a neighborhood for each population individual is defined according to the permutation. A differential evolution inspired neighborhood recombination operator, which based on the neighbors of each population member, is proposed to balance the exploration and exploitation abilities of the algorithm with no compromise of efficiency. The DE inspired operator is then invoked into the clone immune algorithm (CIA) to solve multi-objective problems (MOPs). We compare the proposed algorithm with NSGA2 and SPEA2 by executing it to 5 famous test functions. The results show that the proposed algorithm can fast converge to the global Pareto front and also can sustain a very uniform distribution. It is a potential algorithm for solving MOPs.

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差分进化启发的克隆免疫多目标优化算法

提出了一种新的多目标优化算法:差分进化启发克隆免疫多目标优化算法(DECIMO)。该算法采用对称拉丁超立方体设计(symmetric Latin hypercube design, SLHD)的空间填充实验设计来初始化种群，可以明显提高个体分布的均匀性。生成种群个体指标的排列，并根据该排列定义每个种群个体的邻域。为了在不影响效率的前提下平衡算法的探索和利用能力，提出了一种基于每个种群成员邻居的差分进化启发的邻域重组算子。然后将该算子引入克隆免疫算法求解多目标问题(MOPs)。通过对5个著名的测试函数执行，将该算法与NSGA2和SPEA2进行了比较。结果表明，该算法能快速收敛到全局Pareto前沿，并能保持非常均匀的分布。它是求解MOPs的一种很有潜力的算法。

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来源期刊

2010 International Conference on Electrical and Control Engineering

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