An Ensemble Classification Framework Based on Latent Factor Analysis

2020 IEEE International Conference on Human-Machine Systems (ICHMS) Pub Date : 2020-09-01 DOI:10.1109/ICHMS49158.2020.9209463

Xia He, Xiaoguang Lin, Di Wu, Juan Wang

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引用次数: 1

Abstract

Classification, which is one of the most powerful approaches to filter valuable information from big data, is a typical supervised learning method of machine learning. In many real applications, the collected data may contain many redundant features and have some missing entries. If a classifier is learned directly on such data, it cannot obtain a satisfactory classification performance. In this paper, we propose an ensemble classification framework based on latent factor analysis (ECF-LFA). Its main idea includes two parts: 1) employing the latent factor analysis (LFA) to extract the latent factors (LFs) from original data, which can avoid the influence of redundant features and handle the data with many missing entries, and 2) using these extracted LFs as the input for base classifiers to conduct the ensemble learning, which can boost a base classifier’s classification accuracy. Experimental results on four benchmark datasets and three well-known classification algorithms verify that ECF-LFA can effectively improve a classifier’s performances.

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基于潜在因素分析的集成分类框架

分类是机器学习中典型的监督学习方法，是从大数据中过滤有价值信息的最有力方法之一。在许多实际应用中，收集的数据可能包含许多冗余特征，并且有一些缺失条目。如果直接在这样的数据上学习分类器，将无法获得令人满意的分类性能。本文提出了一种基于潜在因子分析(ECF-LFA)的集成分类框架。其主要思想包括两部分:1)利用潜在因素分析(latent factor analysis, LFA)从原始数据中提取潜在因素(latent factors, LFs)，避免冗余特征的影响，处理缺失条目较多的数据;2)将提取的潜在因素作为基分类器的输入进行集成学习，提高基分类器的分类精度。在4个基准数据集和3种知名分类算法上的实验结果验证了ECF-LFA可以有效地提高分类器的性能。

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2020 IEEE International Conference on Human-Machine Systems (ICHMS)

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