Dugong chirp type classification based on fundamental contour extraction and hierarchical cluster analysis
Dugong chirp type classification based on fundamental contour extraction and hierarchical cluster analysis
A steady decrease in the Dugong (Dugong dugon) population has been notices worldwide. Considering the social function and utilization rate, dugong chirp classification has become an important bioacoustics research topic, which may help marine biologists monitor the change of their population, study their behavioral context in different environments and optimise the protection policy. However, the objective classification of dugong chirps has not been adequately addressed in the literature. In this paper, an automatic fundamental contour extraction using the tempo-frequency variables to describe the contours of the fundamental frequency of the chirps is presented. With the automatic fundamental contour extraction, the time-frequency information of dugong chirps can be effectively represented, which gives a good classification performance. Following the principles used for the classification of dolphin whistles, three variables were chosen and performed with hierarchical cluster analysis. Based on these results and further visual examination, five categories of chirps were identified. A simple classification criterion was proposed which could be used in the automatic and effective identification of chirp types. Our findings enrich the known repertoire of dugong chirps, and may be useful in future passive acoustic monitoring studies
dugong chirp type, hierarchical cluster analysis, fundamental contour extraction, classification
Jiang, Ying
db0be779-4c23-4d32-8d5d-2bbca80e6247
Liu, Zongwei
999ba958-b4fb-4291-8b6e-ad52ddb1bcec
Yang, Chunmei
f6474413-f572-4eb7-87b4-85a874d9b928
White, Paul
2dd2477b-5aa9-42e2-9d19-0806d994eaba
Wang, Xiaoyan
42b11c69-2876-47e0-9422-8b3595592aec
Lu, Lian-Gang
3a6f5c9d-83e5-446e-af8c-d0ae88341d7e
Xia, Tao
84f0f636-d7d7-46cd-852e-326a44445367
Zhang, Xuelei
baa9d19e-3b83-4fc9-a5c4-9692493ad169
Kittiwattanawong, Kongkiat
5154dc1f-c57a-4ae2-a29b-bf9d1fda13f9
28 December 2023
Jiang, Ying
db0be779-4c23-4d32-8d5d-2bbca80e6247
Liu, Zongwei
999ba958-b4fb-4291-8b6e-ad52ddb1bcec
Yang, Chunmei
f6474413-f572-4eb7-87b4-85a874d9b928
White, Paul
2dd2477b-5aa9-42e2-9d19-0806d994eaba
Wang, Xiaoyan
42b11c69-2876-47e0-9422-8b3595592aec
Lu, Lian-Gang
3a6f5c9d-83e5-446e-af8c-d0ae88341d7e
Xia, Tao
84f0f636-d7d7-46cd-852e-326a44445367
Zhang, Xuelei
baa9d19e-3b83-4fc9-a5c4-9692493ad169
Kittiwattanawong, Kongkiat
5154dc1f-c57a-4ae2-a29b-bf9d1fda13f9
Jiang, Ying, Liu, Zongwei, Yang, Chunmei, White, Paul, Wang, Xiaoyan, Lu, Lian-Gang, Xia, Tao, Zhang, Xuelei and Kittiwattanawong, Kongkiat
(2023)
Dugong chirp type classification based on fundamental contour extraction and hierarchical cluster analysis.
Applied Acoustics, 217, [109812].
(doi:10.1016/j.apacoust.2023.109812).
Abstract
A steady decrease in the Dugong (Dugong dugon) population has been notices worldwide. Considering the social function and utilization rate, dugong chirp classification has become an important bioacoustics research topic, which may help marine biologists monitor the change of their population, study their behavioral context in different environments and optimise the protection policy. However, the objective classification of dugong chirps has not been adequately addressed in the literature. In this paper, an automatic fundamental contour extraction using the tempo-frequency variables to describe the contours of the fundamental frequency of the chirps is presented. With the automatic fundamental contour extraction, the time-frequency information of dugong chirps can be effectively represented, which gives a good classification performance. Following the principles used for the classification of dolphin whistles, three variables were chosen and performed with hierarchical cluster analysis. Based on these results and further visual examination, five categories of chirps were identified. A simple classification criterion was proposed which could be used in the automatic and effective identification of chirp types. Our findings enrich the known repertoire of dugong chirps, and may be useful in future passive acoustic monitoring studies
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revised manuscript-clean
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Accepted/In Press date: 10 December 2023
e-pub ahead of print date: 28 December 2023
Published date: 28 December 2023
Keywords:
dugong chirp type, hierarchical cluster analysis, fundamental contour extraction, classification
Identifiers
Local EPrints ID: 508785
URI: http://eprints.soton.ac.uk/id/eprint/508785
ISSN: 0003-682X
PURE UUID: 317c58cf-b24a-4406-a88f-c931ab42dfcb
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Date deposited: 03 Feb 2026 17:49
Last modified: 04 Feb 2026 05:01
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Contributors
Author:
Ying Jiang
Author:
Zongwei Liu
Author:
Chunmei Yang
Author:
Xiaoyan Wang
Author:
Lian-Gang Lu
Author:
Tao Xia
Author:
Xuelei Zhang
Author:
Kongkiat Kittiwattanawong
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