F. Canadas-Quesada scite author profile

In this paper, unsupervised learning is used to separate percussive and harmonic sounds from monaural non-vocal polyphonic signals. Our algorithm is based on a modified non-negative matrix factorization (NMF) procedure that no labeled data is required to distinguish between percussive and harmonic bases because information from percussive and harmonic sounds is integrated into the decomposition process. NMF is performed in this process by assuming that harmonic sounds exhibit spectral sparseness (narrowband sounds) and temporal smoothness (steady sounds), whereas percussive sounds exhibit spectral smoothness (broadband sounds) and temporal sparseness (transient sounds). The evaluation is performed using several real-world excerpts from different musical genres. Comparing the developed approach to three current state-of-the art separation systems produces promising results.

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Musical Instrument Sound Multi-Excitation Model for Non-Negative Spectrogram Factorization

Carabias-Orti

Virtanen

Ruiz-Reyes

et al. 2011

IEEE J. Sel. Top. Signal Process.

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Constrained non-negative sparse coding using learnt instrument templates for realtime music transcription

Carabias-Orti

Rodriguez-Serrano

Canadas-Quesada

et al. 2013

Engineering Applications of Artificial Intelligence

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A non-negative matrix factorization approach based on spectro-temporal clustering to extract heart sounds

et al. 2017

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A novel wheezing detection approach based on constrained non-negative matrix factorization

et al. 2019

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