A Parallel Hybrid Feature Selection Approach Based on Multi-Correlation and Evolutionary Multitasking

IF 0.6 Q4 COMPUTER SCIENCE, THEORY & METHODS International Journal of Grid and High Performance Computing Pub Date : 2023-03-24 DOI:10.4018/ijghpc.320475

Mohamed Amine Azaiz, Djamel Amar Bensaber

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Abstract

Particle swarm optimization (PSO) has been successfully applied to feature selection (FS) due to its efficiency and ease of implementation. Like most evolutionary algorithms, they still suffer from a high computational burden and poor generalization ability. Multifactorial optimization (MFO), as an effective evolutionary multitasking paradigm, has been widely used for solving complex problems through implicit knowledge transfer between related tasks. Based on MFO, this study proposes a PSO-based FS method to solve high-dimensional classification via information sharing between two related tasks generated from a dataset using two different measures of correlation. To be specific, two subsets of relevant features are generated using symmetric uncertainty measure and Pearson correlation coefficient, then each subset is assigned to one task. To improve runtime, the authors proposed a parallel fitness evaluation of particles under Apache Spark. The results show that the proposed FS method can achieve higher classification accuracy with a smaller feature subset in a reasonable time.

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基于多相关和进化多任务的并行混合特征选择方法

粒子群算法以其高效、易于实现的特点，成功地应用于特征选择中。与大多数进化算法一样，它们仍然存在计算量大、泛化能力差的问题。多因子优化作为一种有效的进化多任务处理范式，已被广泛应用于通过相关任务之间的隐性知识转移来解决复杂问题。在此基础上，本文提出了一种基于pso的FS方法，利用两种不同的相关性度量，通过数据集生成的两个相关任务之间的信息共享来解决高维分类问题。具体而言，利用对称不确定性度量和Pearson相关系数生成两个相关特征子集，然后将每个子集分配给一个任务。为了提高运行时间，作者在Apache Spark下提出了一种并行粒子适应度评估方法。结果表明，该方法可以在合理的时间内以较小的特征子集获得较高的分类精度。

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