Asymptotic performance of regularized quadratic discriminant analysis based classifiers

2017 IEEE 27th International Workshop on Machine Learning for Signal Processing (MLSP) Pub Date : 2017-09-01 DOI:10.1109/MLSP.2017.8168172

Khalil Elkhalil, A. Kammoun, Romain Couillet, T. Al-Naffouri, Mohamed-Slim Alouini

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引用次数: 15

Abstract

This paper carries out a large dimensional analysis of the standard regularized quadratic discriminant analysis (QDA) classifier designed on the assumption that data arise from a Gaussian mixture model. The analysis relies on fundamental results from random matrix theory (RMT) when both the number of features and the cardinality of the training data within each class grow large at the same pace. Under some mild assumptions, we show that the asymptotic classification error converges to a deterministic quantity that depends only on the covariances and means associated with each class as well as the problem dimensions. Such a result permits a better understanding of the performance of regularized QDA and can be used to determine the optimal regularization parameter that minimizes the misclassification error probability. Despite being valid only for Gaussian data, our theoretical findings are shown to yield a high accuracy in predicting the performances achieved with real data sets drawn from popular real data bases, thereby making an interesting connection between theory and practice.

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正则化二次判别分析分类器的渐近性能

本文在假设数据来自高斯混合模型的前提下，对标准正则化二次判别分析(QDA)分类器进行了大量纲分析。当每个类中的特征数量和训练数据的基数以相同的速度增长时，分析依赖于随机矩阵理论(RMT)的基本结果。在一些温和的假设下，我们证明渐近分类误差收敛到一个确定性量，该量仅取决于与每个类相关的协方差和均值以及问题维度。这样的结果允许更好地理解正则化QDA的性能，并可用于确定最小化误分类错误概率的最优正则化参数。尽管仅对高斯数据有效，但我们的理论发现在预测从流行的真实数据库中提取的真实数据集所取得的性能时显示出很高的准确性，从而在理论与实践之间建立了有趣的联系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 IEEE 27th International Workshop on Machine Learning for Signal Processing (MLSP)

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