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Learning to detect an animal sound from five examples

Nolasco, Ines; Singh, Shubhr; Morfi, Veronica; Lostanlen, Vincent; Strandburg-Peshkin, Ariana; Vidaña-Vila, Ester; Gill, Lisa; Pamuła, Hanna; Whitehead, Helen; Kiskin, Ivan; H. Jensen, Frants; Morford, Joe; G. Emmerson, Michael; Versace, Elisabetta; Grout, Emily; Liu, Haohe; Ghani, Burooj; Stowell, Dan

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Authors

Ines Nolasco

Shubhr Singh

Veronica Morfi

Vincent Lostanlen

Ariana Strandburg-Peshkin

Ester Vidaña-Vila

Lisa Gill

Hanna Pamuła

Ivan Kiskin

Frants H. Jensen

Joe Morford

Michael G. Emmerson

Elisabetta Versace

Emily Grout

Haohe Liu

Burooj Ghani

Dan Stowell



Abstract

Automatic detection and classification of animal sounds has many applications in biodiversity monitoring and animal behavior. In the past twenty years, the volume of digitised wildlife sound available has massively increased, and automatic classification through deep learning now shows strong results. However, bioacoustics is not a single task but a vast range of small-scale tasks (such as individual ID, call type, emotional indication) with wide variety in data characteristics, and most bioacoustic tasks do not come with strongly-labelled training data. The standard paradigm of supervised learning, focussed on a single large-scale dataset and/or a generic pre-trained algorithm, is insufficient. In this work we recast bioacoustic sound event detection within the AI framework of few-shot learning. We adapt this framework to sound event detection, such that a system can be given the annotated start/end times of as few as 5 events, and can then detect events in long-duration audio—even when the sound category was not known at the time of algorithm training. We introduce a collection of open datasets designed to strongly test a system's ability to perform few-shot sound event detections, and we present the results of a public contest to address the task. Our analysis shows that prototypical networks are a very common used strategy and they perform well when enhanced with adaptations for general characteristics of animal sounds. However, systems with high time resolution capabilities perform the best in this challenge. We demonstrate that widely-varying sound event durations are an important factor in performance, as well as non-stationarity, i.e. gradual changes in conditions throughout the duration of a recording. For fine-grained bioacoustic recognition tasks without massive annotated training data, our analysis demonstrate that few-shot sound event detection is a powerful new method, strongly outperforming traditional signal-processing detection methods in the fully automated scenario.

Journal Article Type Article
Acceptance Date Aug 9, 2023
Publication Date Nov 10, 2023
Deposit Date Sep 16, 2024
Publicly Available Date Sep 20, 2024
Journal Ecological Informatics
Print ISSN 1574-9541
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 77
Article Number 102258
DOI https://doi.org/10.1016/j.ecoinf.2023.102258

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