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Multiscale Audio Spectrogram Transformer for Efficient Audio Classification

Wentao Zhu, Mohamed Omar

202329 citationsDOI

Abstract

Audio event has a hierarchical architecture in both time and frequency and can be grouped together to construct more abstract semantic audio classes. In this work, we develop a multiscale audio spectrogram Transformer (MAST) that employs hierarchical representation learning for efficient audio classification. Specifically, MAST employs one-dimensional (and two-dimensional) pooling operators along the time (and frequency domains) in different stages, and progressively reduces the number of tokens and increases the feature dimensions. MAST significantly outperforms AST [1] by 22.2%, 4.4% and 4.7% on Kinetics-Sounds, Epic-Kitchens-100 and VGGSound in terms of the top-1 accuracy without external training data. On the downloaded AudioSet dataset, which has over 20% missing audios, MAST also achieves slightly better accuracy than AST. In addition, MAST is 5× more efficient in terms of multiply-accumulates (MACs) with 42% reduction in the number of parameters compared to AST. Through clustering metrics and visualizations, we demonstrate that the proposed MAST can learn semantically more separable feature representations from audio signals.

Topics & Concepts

Computer scienceSpectrogramPoolingPattern recognition (psychology)Cluster analysisFeature extractionArtificial intelligenceSpeech recognitionFeature learningMusic and Audio ProcessingSpeech and Audio ProcessingMusic Technology and Sound Studies