A Study on Robustness to Perturbations for Representations of Environmental Sound

Authors

Sangeeta Srivastava, The Ohio State University
Ho Hsiang Wu, New York University
Joao Rulff, New York University
Magdalena Fuentes, New York University
Mark Cartwright, New Jersey Institute of Technology
Claudio Silva, New York University
Anish Arora, The Ohio State University
Juan Pablo Bello, New York University

Document Type

Conference Proceeding

Publication Date

1-1-2022

Abstract

Audio applications involving environmental sound analysis increasingly use general-purpose audio representations, also known as embeddings, for transfer learning. Recently, Holistic Evaluation of Audio Representations (HEAR) evaluated twenty-nine embedding models on nineteen diverse tasks. However, the evaluation's effectiveness depends on the variation already captured within a given dataset. Therefore, for a given data domain, it is unclear how the representations would be affected by the variations caused by myriad microphones' range and acoustic conditions - commonly known as channel effects. We aim to extend HEAR to evaluate invariance to channel effects in this work. To accomplish this, we imitate channel effects by injecting perturbations to the audio signal and measure the shift in the new (perturbed) embeddings with three distance measures, making the evaluation domain-dependent but not task-dependent. Combined with the downstream performance, it helps us make a more informed prediction of how robust the embeddings are to the channel effects. We evaluate two embeddings - YAMNet, and OpenL³ on monophonic (UrbanSound8K) and polyphonic (SONYC-UST) urban datasets. We show that one distance measure does not suffice in such task-independent evaluation. Although Fréchet Audio Distance (FAD) correlates with the trend of the performance drop in the downstream task most accurately, we show that we need to study FAD in conjunction with the other distances to get a clear understanding of the overall effect of the perturbation. In terms of the embedding performance, we find OpenL³ to be more robust than YAMNet, which aligns with the HEAR evaluation.

Identifier

85141010807 (Scopus)

ISBN

[9789082797091]

Publication Title

European Signal Processing Conference

ISSN

22195491

First Page

125

Last Page

129

Volume

2022-August

Grant

1544753

Fund Ref

National Science Foundation

Recommended Citation

Srivastava, Sangeeta; Wu, Ho Hsiang; Rulff, Joao; Fuentes, Magdalena; Cartwright, Mark; Silva, Claudio; Arora, Anish; and Bello, Juan Pablo, "A Study on Robustness to Perturbations for Representations of Environmental Sound" (2022). Faculty Publications. 3355.
https://digitalcommons.njit.edu/fac_pubs/3355