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Analysis of Feature Representations for Anomalous Sound Detection

Robert Müller, Steffen Illium, Fabian Ritz, Kyrill Schmid

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Abstract

In this work, we thoroughly evaluate the efficacy of pretrained neural networks as feature extractors for anomalous sound detection. In doing so, we leverage the knowledge that is contained in these neural networks to extract semantically rich features (representations) that serve as input to a Gaussian Mixture Model which is used as a density estimator to model normality. We compare feature extractors that were trained on data from various domains, namely: images, environmental sounds and music. Our approach is evaluated on recordings from factory machinery such as valves, pumps, sliders and fans. All of the evaluated representations outperform the autoencoder baseline with music based representations yielding the best performance in most cases. These results challenge the common assumption that closely matching the domain of the feature extractor and the downstream task results in better downstream task performance.

Topics & Concepts

AutoencoderFeature (linguistics)Computer scienceArtificial intelligenceExtractorPattern recognition (psychology)Task (project management)EstimatorMatching (statistics)Domain (mathematical analysis)Artificial neural networkFeature extractionFactory (object-oriented programming)Speech recognitionBaseline (sea)Downstream (manufacturing)SpectrogramFeature vectorFeature matchingChannel (broadcasting)Deep neural networksTest dataMachine learningFeature learningSound (geography)Frequency domainTask analysisCharacter (mathematics)Representation (politics)Music and Audio ProcessingAnomaly Detection Techniques and ApplicationsSpeech and Audio Processing