Passive stochastic matched filter for Antarctic blue whale call detection

Bouffaut, Léa; Dreo, Richard; Labat, Valérie; Boudraa, Abdel-Ouahab; Barruol, Guilhem

doi:10.1121/1.5050520

Cited by 9 publications

(7 citation statements)

References 28 publications

(80 reference statements)

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“…Automatic detection of mysticete sound events has commonly been performed using template matching (also known as matched filter) either in the time domain 9 , 30 , or in the time-frequency space 43 , 44 . We have compared this approach to our CNN-based detection system.…”

Section: Methodsmentioning

confidence: 99%

Temporal evolution of the Mediterranean fin whale song

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Marxer

Paris

et al. 2022

Sci Rep

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We present an analysis of fin whale (Balaenoptera physalus) songs on passive acoustic recordings from the Pelagos Sanctuary (Western Mediterranean Basin). The recordings were gathered between 2008 and 2018 using 2 different hydrophone stations. We show how 20 Hz fin whale pulses can be automatically detected using a low complexity convolutional neural network (CNN) despite data variability (different recording devices exposed to diverse noises). The pulses were further classified into the two categories described in past studies and inter pulse intervals (IPI) were measured. The results confirm previous observations on the local relationship between pulse type and IPI with substantially more data. Furthermore we show inter-annual shifts in IPI and an intra-annual trend in pulse center frequency. This study provides new elements of comparison for the understanding of long term fin whale song trends worldwide.

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Section: Methodsmentioning

confidence: 99%

Temporal evolution of the Mediterranean fin whale song

Best

Marxer

Paris

et al. 2022

Sci Rep

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“…Through IWC-SORP, the Acoustic Trends Project working group has built upon the pioneering work done in the first decade of the twenty-first century, and has fostered an increasing number of passive acoustic studies focusing on the calls of Antarctic blue whales and to a lesser extent fin whales across broad time and spatial scales, as well as acoustic data processing and analysis methodology. The data from these studies have been collected both from ships during Antarctic voyages and from long-term moored recording devices 4, [14][15][16][17][18][19][20][21][22][23][24][25][26][27][28][29][30][31] . The project working group presently (as of March 2020) has access to more than 300,000 h of passive acoustic data that have been collected throughout the Southern Ocean over the past 20 years.…”

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confidence: 99%

An open access dataset for developing automated detectors of Antarctic baleen whale sounds and performance evaluation of two commonly used detectors

Miller

Stafford²,

Opzeeland³

et al. 2021

Sci Rep

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Since 2001, hundreds of thousands of hours of underwater acoustic recordings have been made throughout the Southern Ocean south of 60° S. Detailed analysis of the occurrence of marine mammal sounds in these circumpolar recordings could provide novel insights into their ecology, but manual inspection of the entirety of all recordings would be prohibitively time consuming and expensive. Automated signal processing methods have now developed to the point that they can be applied to these data in a cost-effective manner. However training and evaluating the efficacy of these automated signal processing methods still requires a representative annotated library of sounds to identify the true presence and absence of different sound types. This work presents such a library of annotated recordings for the purpose of training and evaluating automated detectors of Antarctic blue and fin whale calls. Creation of the library has focused on the annotation of a representative sample of recordings to ensure that automated algorithms can be developed and tested across a broad range of instruments, locations, environmental conditions, and years. To demonstrate the utility of the library, we characterise the performance of two automated detection algorithms that have been commonly used to detect stereotyped calls of blue and fin whales. The availability of this library will facilitate development of improved detectors for the acoustic presence of Southern Ocean blue and fin whales. It can also be expanded upon to facilitate standardization of subsequent analysis of spatiotemporal trends in call-density of these circumpolar species.

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“…It consists in calculating the eigenelements of , projecting the measured data onto each eigenvectors and summing ≥ 1 powers of these terms. [2,3,4].…”

Section: A the Smfmentioning

confidence: 99%

The Multicriteria Constrained Stochastic Matched Filter For Underwater Bioacoustic Signals

Xerri

Borloz

Chagmani

2019

OCEANS 2019 - Marseille

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The aim of this paper is the detection of a bioacoustic signal embedded in several noises such as sea noise and other bioacoustic signals (dolphins, sperm whales). All the signals are real world signals.Only second order statistics are use through the estimated correlation matrices of the signals. This paper proposes an extension of the Constrained Stochastic Matched Filter (CSMF) based on the optimization of the Signal to Noise Ratio after linear filtering. The approach proposed is a multicriteria one, merging three different versions of the CSMF, and is named Multicriteria CSMF (MCSMF).The objective is that the results obtained are better than the other methods, or at least equal to the best among the three.The results are provided on ROC curves and the method is compared to the classical method Stochastic Matched Filter (SMF).

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Passive stochastic matched filter for Antarctic blue whale call detection

Cited by 9 publications

References 28 publications

Temporal evolution of the Mediterranean fin whale song

Temporal evolution of the Mediterranean fin whale song

An open access dataset for developing automated detectors of Antarctic baleen whale sounds and performance evaluation of two commonly used detectors

The Multicriteria Constrained Stochastic Matched Filter For Underwater Bioacoustic Signals

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