Taxonomical classification of reef fish with broadband backscattering models and machine learning approaches

Roa, Camilo; Pedersen, Geir; Bollinger, Michael; Taylor, Christopher; Boswell, Kevin M.

doi:10.1121/10.0012192

The Journal of the Acoustical Society of America

2022

DOI: 10.1121/10.0012192

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Taxonomical classification of reef fish with broadband backscattering models and machine learning approaches

Camilo Roa

Geir Pedersen

Michael Bollinger

et al.

Abstract: Commercially available broadband echosounders have the potential to classify acoustic targets based on their scattering responses, which are a function of their species-specific morphological and physiological properties. This is particularly important in complex environments with biologically diverse fish assemblages. Using theoretical acoustic scattering models among 130 fishes across six species, we examine the potential to classify reef fish based on the fine-scale gas-bearing swim bladder morphology quant… Show more

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Model-informed classification of broadband acoustic backscatter from zooplankton in an in situ mesocosm

Dunn,

McGowan-Yallop,

Pedersen

et al. 2023

ICES Journal of Marine Science

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Classification of zooplankton to species with broadband echosounder data could increase the taxonomic resolution of acoustic surveys and reduce the dependence on net and trawl samples for ‘ground truthing’. Supervised classification with broadband echosounder data is limited by the acquisition of validated data required to train machine learning algorithms (‘classifiers’). We tested the hypothesis that acoustic scattering models could be used to train classifiers for remote classification of zooplankton. Three classifiers were trained with data from scattering models of four Arctic zooplankton groups (copepods, euphausiids, chaetognaths, and hydrozoans). We evaluated classifier predictions against observations of a mixed zooplankton community in a submerged purpose-built mesocosm (12 m3) insonified with broadband transmissions (185–255 kHz). The mesocosm was deployed from a wharf in Ny-Ålesund, Svalbard, during the Arctic polar night in January 2022. We detected 7722 tracked single targets, which were used to evaluate the classifier predictions of measured zooplankton targets. The classifiers could differentiate copepods from the other groups reasonably well, but they could not differentiate euphausiids, chaetognaths, and hydrozoans reliably due to the similarities in their modelled target spectra. We recommend that model-informed classification of zooplankton from broadband acoustic signals be used with caution until a better understanding of in situ target spectra variability is gained.

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Model-informed classification of broadband acoustic backscatter from zooplankton in an in situ mesocosm

Dunn,

McGowan-Yallop,

Pedersen

et al. 2023

ICES Journal of Marine Science

View full text Add to dashboard Cite

show abstract

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Taxonomical classification of reef fish with broadband backscattering models and machine learning approaches

Cited by 1 publication

References 53 publications

Model-informed classification of broadband acoustic backscatter from zooplankton in an in situ mesocosm

Model-informed classification of broadband acoustic backscatter from zooplankton in an in situ mesocosm

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