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Statistics and Its Interface
Volume 17 (2024)
Number 1
Special issue in honor of Professor Lincheng Zhao
Abnormal sample detection based on robust Mahalanobis distance estimation in adversarial machine learning
Pages: 91 – 106
DOI: https://dx.doi.org/10.4310/23-SII818
Authors
Abstract
This paper addresses the problem of abnormal sample detection in deep learning-based computer vision, focusing on two types of abnormal samples: outlier samples and adversarial samples. The presence of these abnormal samples can significantly degrade the performance and robustness of deep learning models, posing security risks in critical areas. To address this, we propose a method that combines robust Mahalanobis distance (RMD) estimation with a pretrained convolutional neural networks (CNNs) model. The RMD estimation involves using minimum covariance matrix determinant (MCD), $T$-type, and $S$ estimators. Furthermore, we theoretically analyze the breakdown point and influence function of the $T$-type estimator. To evaluate the effectiveness and robustness of our method, we utilize public datasets, CNN models, and adversarial sample generation algorithms commonly employed in the field. The experimental results demonstrate the effectiveness of our algorithm in detecting abnormal samples.
Keywords
abnormal sample detection, MCD estimator, $T$-type estimator, breakdown point, influence function
2010 Mathematics Subject Classification
Primary 62G35, 62H30. Secondary 62H35.
Received 3 November 2022
Accepted 24 August 2023
Published 27 November 2023