Active learning for bird sounds classification

Kun Qian; Zixing Zhang; Alice Baird; Björn Schuller

doi:10.3813/AAA.919064

Active learning for bird sounds classification

Kun Qian
, Zixing Zhang
, Alice Baird
, Björn Schuller

Technical University of Munich
University of Passau
Imperial College London

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

It has been shown that automatic bird sound recognition can be an extremely useful tool for ornithologist and ecologists, allowing for a deeper understanding of; mating, evolution, local biodiversity and even climate change. For a robust and efficient recognition model, a large amount of labelled data is needed, requiring a time consuming and costly effort by expert-human annotators. To reduce this, we introduce for the first time, active learning, for automatic selection of the most informative data for training the recognition model. Experimental results show that our proposed; sparse-instance-based and least-confidence-score-based active learning methods reduce respectively 16.0% and 35.2% human annotated samples than compared to passive learning methods, achieving an acceptable performance (unweighted average recall > 85%), when recognising the sound of 60 different species of birds.

Original language	English
Pages (from-to)	361-364
Number of pages	4
Journal	Acta Acustica United with Acustica
Volume	103
Issue number	3
DOIs	https://doi.org/10.3813/AAA.919064
Publication status	Published - 1 May 2017
Externally published	Yes

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This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

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10.3813/AAA.919064

Cite this

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title = "Active learning for bird sounds classification",

abstract = "It has been shown that automatic bird sound recognition can be an extremely useful tool for ornithologist and ecologists, allowing for a deeper understanding of; mating, evolution, local biodiversity and even climate change. For a robust and efficient recognition model, a large amount of labelled data is needed, requiring a time consuming and costly effort by expert-human annotators. To reduce this, we introduce for the first time, active learning, for automatic selection of the most informative data for training the recognition model. Experimental results show that our proposed; sparse-instance-based and least-confidence-score-based active learning methods reduce respectively 16.0\% and 35.2\% human annotated samples than compared to passive learning methods, achieving an acceptable performance (unweighted average recall > 85\%), when recognising the sound of 60 different species of birds.",

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doi = "10.3813/AAA.919064",

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AU - Qian, Kun

AU - Zhang, Zixing

AU - Baird, Alice

AU - Schuller, Björn

PY - 2017/5/1

Y1 - 2017/5/1

N2 - It has been shown that automatic bird sound recognition can be an extremely useful tool for ornithologist and ecologists, allowing for a deeper understanding of; mating, evolution, local biodiversity and even climate change. For a robust and efficient recognition model, a large amount of labelled data is needed, requiring a time consuming and costly effort by expert-human annotators. To reduce this, we introduce for the first time, active learning, for automatic selection of the most informative data for training the recognition model. Experimental results show that our proposed; sparse-instance-based and least-confidence-score-based active learning methods reduce respectively 16.0% and 35.2% human annotated samples than compared to passive learning methods, achieving an acceptable performance (unweighted average recall > 85%), when recognising the sound of 60 different species of birds.

AB - It has been shown that automatic bird sound recognition can be an extremely useful tool for ornithologist and ecologists, allowing for a deeper understanding of; mating, evolution, local biodiversity and even climate change. For a robust and efficient recognition model, a large amount of labelled data is needed, requiring a time consuming and costly effort by expert-human annotators. To reduce this, we introduce for the first time, active learning, for automatic selection of the most informative data for training the recognition model. Experimental results show that our proposed; sparse-instance-based and least-confidence-score-based active learning methods reduce respectively 16.0% and 35.2% human annotated samples than compared to passive learning methods, achieving an acceptable performance (unweighted average recall > 85%), when recognising the sound of 60 different species of birds.

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Active learning for bird sounds classification

Abstract

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