2022
DOI: 10.48550/arxiv.2202.12653
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Bayesian autoencoders with uncertainty quantification: Towards trustworthy anomaly detection

Bang Xiang Yong1,
Alexandra Brintrup2

Abstract: Despite numerous studies of deep autoencoders (AEs) for unsupervised anomaly detection, AEs still lack a way to express uncertainty in their predictions, crucial for ensuring safe and trustworthy machine learning systems in high-stake applications. Therefore, in this work, the formulation of Bayesian autoencoders (BAEs) is adopted to quantify the total anomaly uncertainty, comprising epistemic and aleatoric uncertainties. To evaluate the quality of uncertainty, we consider the task of classifying anomalies wit… Show more

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“…In the experiments, we use the following state-of-the-art methods as benchmarks: Native UAE [5], UC-Net [7], and Bayesian Autoencoder (BAE) [8], with the public codes provided by the authors. Computational requirements for all experiments are: Python 3.9.13, tensorflow 2.…”
Section: Resultsmentioning
confidence: 99%

An improved uncertainty autoencoder with blurred measurements

Xu,
Wu,
Xu
2023
The Journal of Engineering
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“…In the experiments, we use the following state-of-the-art methods as benchmarks: Native UAE [5], UC-Net [7], and Bayesian Autoencoder (BAE) [8], with the public codes provided by the authors. Computational requirements for all experiments are: Python 3.9.13, tensorflow 2.…”
Section: Resultsmentioning
confidence: 99%

An improved uncertainty autoencoder with blurred measurements

Xu,
Wu,
Xu
2023
The Journal of Engineering
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0
0
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