Katherine Dahiana Vera Escobar, Fabio López-Pires, B. Barán, Fernando Sandoya
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引用次数: 1
摘要
最大多样性(MD)问题是选择一个元素子集的过程,其中所选元素之间的多样性最大化。文献中已经研究了几种多样性措施,优化了纯单目标方法中考虑的问题。这项工作首次提出了MD问题的多目标方法,考虑了以下五个多样性度量的同时优化:(i) Max-Sum, (ii) Max-Min, (iii) Max-MinSum, (iv) Min-Diff和(v) Min-P-center。提出了两种不同的优化模型:(i)多目标最大多样性(MMD)模型,其中需要选择的元素数量是先验定义的;(ii)多目标最大平均多样性(MMAD)模型,其中需要选择的元素数量也是一个决策变量。为了解决上述问题,提出了一种多目标进化算法(MOEA)。实验结果表明,当考虑hypervolume进行比较时,所提出的MOEA找到了良好的质量解,即在最优Pareto front的98.85%到100%之间。
Maximum Diversity Problem. A Multi-Objective Approach
The Maximum Diversity (MD) problem is the process of selecting a subset of elements where the diversity among selected elements is maximized. Several diversity measures were already studied in the literature, optimizing the problem considered in a pure mono-objective approach. This work presents for the first time multi-objective approaches for the MD problem, considering the simultaneous optimization of the following five diversity measures: (i) Max-Sum, (ii) Max-Min, (iii) Max-MinSum, (iv) Min-Diff and (v) Min-P-center. Two different optimization models are proposed: (i) Multi-Objective Maximum Diversity (MMD) model, where the number of elements to be selected is defined a-priori, and (ii) Multi-Objective Maximum Average Diversity (MMAD) model, where the number of elements to be selected is also a decision variable. To solve the formulated problems, a Multi-Objective Evolutionary Algorithm (MOEA) is presented. Experimental results demonstrate that the proposed MOEA found good quality solutions, i.e. between 98.85% and 100% of the optimal Pareto front when considering the hypervolume for comparison purposes.
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