Automated extraction of dolphin whistles- a Sequential Monte Carlo Probability Hypothesis Density (SMC-PHD) approach
Automated extraction of dolphin whistles- a Sequential Monte Carlo Probability Hypothesis Density (SMC-PHD) approach
The need for automated methods to detect and extract marine mammal vocalizations from acoustic data has increased in the last few decades due to the increased availability of long-term recording systems. Automated dolphin whistle extraction represents a challenging problem due to the time-varying number of overlapping whistles present in, potentially, noisy recordings. Typical methods utilize image processing techniques or single target tracking, but often result in fragmentation of whistle contours and/or partial whistle detection. This study casts the problem into a more general statistical multi-target tracking framework, and uses the probability hypothesis density (PHD) filter as a practical approximation to the optimal Bayesian multi-target filter. In particular, a particle version, referred to as a Sequential Monte Carlo PHD (SMC-PHD) filter, is adapted for frequency tracking and specific models are developed for this application. Based on these models, two versions of the SMC-PHD filter are proposed and their performance is investigated on an extensive real-world dataset of dolphin acoustic recordings. The proposed filters are shown to be efficient tools for automated extraction of whistles, suitable for real-time implementation.
automated whistle tracking, multi-target Bayesian, probability hypothesis density, sequential Monte Carlo
Gruden, Pina
2d951d33-121b-4bce-9cf4-daa3935e2fb4
White, Paul
2dd2477b-5aa9-42e2-9d19-0806d994eaba
Gruden, Pina
2d951d33-121b-4bce-9cf4-daa3935e2fb4
White, Paul
2dd2477b-5aa9-42e2-9d19-0806d994eaba
Gruden, Pina and White, Paul
(2020)
Automated extraction of dolphin whistles- a Sequential Monte Carlo Probability Hypothesis Density (SMC-PHD) approach.
Journal of the Acoustical Society of America, 148 (5), [3014].
(doi:10.1121/10.0002257).
Abstract
The need for automated methods to detect and extract marine mammal vocalizations from acoustic data has increased in the last few decades due to the increased availability of long-term recording systems. Automated dolphin whistle extraction represents a challenging problem due to the time-varying number of overlapping whistles present in, potentially, noisy recordings. Typical methods utilize image processing techniques or single target tracking, but often result in fragmentation of whistle contours and/or partial whistle detection. This study casts the problem into a more general statistical multi-target tracking framework, and uses the probability hypothesis density (PHD) filter as a practical approximation to the optimal Bayesian multi-target filter. In particular, a particle version, referred to as a Sequential Monte Carlo PHD (SMC-PHD) filter, is adapted for frequency tracking and specific models are developed for this application. Based on these models, two versions of the SMC-PHD filter are proposed and their performance is investigated on an extensive real-world dataset of dolphin acoustic recordings. The proposed filters are shown to be efficient tools for automated extraction of whistles, suitable for real-time implementation.
More information
Accepted/In Press date: 28 September 2020
e-pub ahead of print date: 24 November 2020
Keywords:
automated whistle tracking, multi-target Bayesian, probability hypothesis density, sequential Monte Carlo
Identifiers
Local EPrints ID: 444504
URI: http://eprints.soton.ac.uk/id/eprint/444504
ISSN: 0001-4966
PURE UUID: 3050b947-80d6-4e0c-b8c4-f6d310197be5
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Date deposited: 22 Oct 2020 16:30
Last modified: 17 Mar 2024 05:58
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Author:
Pina Gruden
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