Enhancing anomaly detectors with LatentOut

IF 2.3 3区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Fabrizio Angiulli, Fabio Fassetti, Luca Ferragina
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引用次数: 0

Abstract

\({{\textbf{Latent}}\varvec{Out}}\) is a recently introduced algorithm for unsupervised anomaly detection which enhances latent space-based neural methods, namely (Variational) Autoencoders, GANomaly and ANOGan architectures. The main idea behind it is to exploit both the latent space and the baseline score of these architectures in order to provide a refined anomaly score performing density estimation in the augmented latent-space/baseline-score feature space. In this paper we investigate the performance of \({{\textbf{Latent}}\varvec{Out}}\) acting as a one-class classifier and we experiment the combination of \({{\textbf{Latent}}\varvec{Out}}\) with GAAL architectures, a novel type of Generative Adversarial Networks for unsupervised anomaly detection. Moreover, we show that the feature space induced by \({{\textbf{Latent}}\varvec{Out}}\) has the characteristic to enhance the separation between normal and anomalous data. Indeed, we prove that standard data mining outlier detection methods perform better when applied on this novel augmented latent space rather than on the original data space.

Abstract Image

利用LatentOut增强异常检测器
\({{\textbf{Latent}}\varvec{Out}}\) 是最近引入的一种用于无监督异常检测的算法,它增强了基于潜在空间的神经方法,即(变分)自编码器、GANomaly和ANOGan架构。其背后的主要思想是利用这些架构的潜在空间和基线分数,以便在增强的潜在空间/基线分数特征空间中提供执行密度估计的精细异常分数。在本文中,我们研究了\({{\textbf{Latent}}\varvec{Out}}\)作为单类分类器的性能,并实验了\({{\textbf{Latent}}\varvec{Out}}\)与GAAL架构的组合,GAAL架构是一种用于无监督异常检测的新型生成对抗网络。此外,我们还证明了\({{\textbf{Latent}}\varvec{Out}}\)诱导的特征空间具有增强正常和异常数据分离的特性。事实上,我们证明了标准的数据挖掘离群点检测方法在应用于这种新的增强潜在空间时比应用于原始数据空间时表现得更好。
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来源期刊
Journal of Intelligent Information Systems
Journal of Intelligent Information Systems 工程技术-计算机:人工智能
CiteScore
7.20
自引率
11.80%
发文量
72
审稿时长
6-12 weeks
期刊介绍: The mission of the Journal of Intelligent Information Systems: Integrating Artifical Intelligence and Database Technologies is to foster and present research and development results focused on the integration of artificial intelligence and database technologies to create next generation information systems - Intelligent Information Systems. These new information systems embody knowledge that allows them to exhibit intelligent behavior, cooperate with users and other systems in problem solving, discovery, access, retrieval and manipulation of a wide variety of multimedia data and knowledge, and reason under uncertainty. Increasingly, knowledge-directed inference processes are being used to: discover knowledge from large data collections, provide cooperative support to users in complex query formulation and refinement, access, retrieve, store and manage large collections of multimedia data and knowledge, integrate information from multiple heterogeneous data and knowledge sources, and reason about information under uncertain conditions. Multimedia and hypermedia information systems now operate on a global scale over the Internet, and new tools and techniques are needed to manage these dynamic and evolving information spaces. The Journal of Intelligent Information Systems provides a forum wherein academics, researchers and practitioners may publish high-quality, original and state-of-the-art papers describing theoretical aspects, systems architectures, analysis and design tools and techniques, and implementation experiences in intelligent information systems. The categories of papers published by JIIS include: research papers, invited papters, meetings, workshop and conference annoucements and reports, survey and tutorial articles, and book reviews. Short articles describing open problems or their solutions are also welcome.
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