Listen to Interpret: Post-Hoc Interpretability for Audio Networks with NMF
Abstract
This paper tackles post-hoc interpretability for audio processing networks. Our goal is to interpret decisions of a trained network in terms of high-level audio objects that are also listenable for the end-user. To this end, we propose a novel interpreter design that incorporates non-negative matrix factorization (NMF). In particular, a regularized interpreter module is trained to take hidden layer representations of the targeted network as input and produce time activations of pre-learnt NMF components as intermediate outputs. Our methodology allows us to generate intuitive audio-based interpretations that explicitly enhance parts of the input signal most relevant for a network's decision. We demonstrate our method's applicability on popular benchmarks, including a real-world multi-label classification task.
Cite
Text
Parekh et al. "Listen to Interpret: Post-Hoc Interpretability for Audio Networks with NMF." Neural Information Processing Systems, 2022.Markdown
[Parekh et al. "Listen to Interpret: Post-Hoc Interpretability for Audio Networks with NMF." Neural Information Processing Systems, 2022.](https://mlanthology.org/neurips/2022/parekh2022neurips-listen/)BibTeX
@inproceedings{parekh2022neurips-listen,
title = {{Listen to Interpret: Post-Hoc Interpretability for Audio Networks with NMF}},
author = {Parekh, Jayneel and Parekh, Sanjeel and Mozharovskyi, Pavlo and d'Alché-Buc, Florence and Richard, Gaël},
booktitle = {Neural Information Processing Systems},
year = {2022},
url = {https://mlanthology.org/neurips/2022/parekh2022neurips-listen/}
}