Abstract
Audio domain transfer is the process of modifying audio signals to match characteristics of a different domain, while retaining the original content. Examples include transferring room acoustics or altering audio effects such as distortion. This paper investigates the potential of Gaussian Flow Bridges, an emerging approach in generative modeling, for these problems. The presented framework addresses the transport problem across different distributions of audio signals through the implementation of a series of two deterministic probability flows. The proposed framework facilitates manipulation of the target distribution properties through a continuous control variable, which defines a certain aspect of the target domain. Notably, this approach does not rely on paired examples for training. To address identified challenges on maintaining the speech content consistent, we recommend a training strategy that incorporates chunk-based minibatch Optimal Transport couplings of data samples and noise. Comparing our unsupervised method with established baselines, we find competitive performance in tasks of reverberation and distortion manipulation. Despite encoutering limitations, the intriguing results obtained in this study underscore potential for further exploration.
Original language | English |
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Title of host publication | 2024 18th International Workshop on Acoustic Signal Enhancement, IWAENC 2024 - Proceedings |
Publisher | IEEE |
Pages | 374-378 |
Number of pages | 5 |
ISBN (Electronic) | 979-8-3503-6185-8 |
DOIs | |
Publication status | Published - 2024 |
MoE publication type | A4 Conference publication |
Event | International Workshop on Acoustic Signal Enhancement - Aalborg, Denmark Duration: 9 Sept 2024 → 12 Sept 2024 Conference number: 18 |
Publication series
Name | International Workshop on Acoustic Signal Enhancement |
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ISSN (Electronic) | 2835-3439 |
Workshop
Workshop | International Workshop on Acoustic Signal Enhancement |
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Abbreviated title | IWAENC |
Country/Territory | Denmark |
City | Aalborg |
Period | 09/09/2024 → 12/09/2024 |
Keywords
- audio processing
- machine learning
- probabilistic modeling