Use of SDWBA predictions for acoustic volume backscattering and the Self-Organizing Map to discern frequencies identifying Meganyctiphanes norvegica from mesopelagic fish species

To acoustically assess the biomass of multiple species or taxa within a survey region, the volume backscatter data should be apportioned to the constituent sound scatterers. Typically, measured backscatter is attributed to certain species using predictions at different frequencies, mostly based on t...

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Published in:Deep Sea Research Part I: Oceanographic Research Papers
Main Authors: Peña, M. (Marian), Calise, L. (Lucio)
Format: Article in Journal/Newspaper
Language:English
Published: Centro Oceanográfico de Baleares 2016
Subjects:
Meganyctiphanes norvegica
Northern krill
Online Access:http://hdl.handle.net/10508/9968
https://doi.org/10.1016/j.dsr.2016.01.006
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spelling ftieo:oai:repositorio.ieo.es:10508/9968 2023-05-15T17:10:42+02:00 Use of SDWBA predictions for acoustic volume backscattering and the Self-Organizing Map to discern frequencies identifying Meganyctiphanes norvegica from mesopelagic fish species Peña, M. (Marian) Calise, L. (Lucio) 2016 http://hdl.handle.net/10508/9968 https://doi.org/10.1016/j.dsr.2016.01.006 eng eng Centro Oceanográfico de Baleares MAFIA, SCAPA 0967-0637 http://hdl.handle.net/10508/9968 Deep-Sea Research Part I-Oceanographic Research Papers, 2,4210, 100. 2016: 50-64 doi:10.1016/j.dsr.2016.01.006 Attribution-NonCommercial-NoDerivs 3.0 Spain http://creativecommons.org/licenses/by-nc-nd/3.0/es/ closedAccess CC-BY-NC-ND article 2016 ftieo https://doi.org/10.1016/j.dsr.2016.01.006 2022-07-26T23:48:51Z To acoustically assess the biomass of multiple species or taxa within a survey region, the volume backscatter data should be apportioned to the constituent sound scatterers. Typically, measured backscatter is attributed to certain species using predictions at different frequencies, mostly based on the difference in scattering at the frequencies of 38 and 120 kHz ('dual frequency method'). We used the full version of the stochastic distorted wave Born approximation model (SDWBA) to predict backscatter spectra for Meganyctiphanes norvegica and to explore the sensitivities of ΔMVBS to the model parameters, e.g. acoustic frequency and incidence angle, and animal density and sound speed contrast, length, and shape. The orientation is almost the unique parameter responsible for variation, with fatness affecting longer lengths. We present a summary of ΔMVBS that can serve as the basis for identification algorithms. Next, we simulate the scenario encountered in the Balearic Sea (western Mediterranean) where Northern krill are mixed with mesopelagic fish species (bristlemouths and lanternfishes), which are modeled with a prolate spheroid model. Simulated numerical data are employed to emulate the discrimination process with the most common identification techniques and typical survey frequencies. The importance of using density-independent techniques for acoustic classification is highlighted. Finally, an unsupervised neural network, the Self-Organizing Map (SOM), is used to cluster these theoretical data and identify the frequencies that provide, in this case, the most classification potential. The simulation results confirm that pairs of frequencies spanning the Rayleigh and geometric scattering regimes of the targets are the most useful for clustering; a minimum of four frequencies are necessary to separate the three species, while three frequencies are able to differentiate krill from mesopelagic fish species. En prensa 2,4210 Article in Journal/Newspaper Meganyctiphanes norvegica Northern krill Instituto Español de Oceanografía: e-IEO Deep Sea Research Part I: Oceanographic Research Papers 110 50 64
institution Open Polar
collection Instituto Español de Oceanografía: e-IEO
op_collection_id ftieo
language English
description To acoustically assess the biomass of multiple species or taxa within a survey region, the volume backscatter data should be apportioned to the constituent sound scatterers. Typically, measured backscatter is attributed to certain species using predictions at different frequencies, mostly based on the difference in scattering at the frequencies of 38 and 120 kHz ('dual frequency method'). We used the full version of the stochastic distorted wave Born approximation model (SDWBA) to predict backscatter spectra for Meganyctiphanes norvegica and to explore the sensitivities of ΔMVBS to the model parameters, e.g. acoustic frequency and incidence angle, and animal density and sound speed contrast, length, and shape. The orientation is almost the unique parameter responsible for variation, with fatness affecting longer lengths. We present a summary of ΔMVBS that can serve as the basis for identification algorithms. Next, we simulate the scenario encountered in the Balearic Sea (western Mediterranean) where Northern krill are mixed with mesopelagic fish species (bristlemouths and lanternfishes), which are modeled with a prolate spheroid model. Simulated numerical data are employed to emulate the discrimination process with the most common identification techniques and typical survey frequencies. The importance of using density-independent techniques for acoustic classification is highlighted. Finally, an unsupervised neural network, the Self-Organizing Map (SOM), is used to cluster these theoretical data and identify the frequencies that provide, in this case, the most classification potential. The simulation results confirm that pairs of frequencies spanning the Rayleigh and geometric scattering regimes of the targets are the most useful for clustering; a minimum of four frequencies are necessary to separate the three species, while three frequencies are able to differentiate krill from mesopelagic fish species. En prensa 2,4210
format Article in Journal/Newspaper
author Peña, M. (Marian)
Calise, L. (Lucio)
spellingShingle Peña, M. (Marian)
Calise, L. (Lucio)
Use of SDWBA predictions for acoustic volume backscattering and the Self-Organizing Map to discern frequencies identifying Meganyctiphanes norvegica from mesopelagic fish species
author_facet Peña, M. (Marian)
Calise, L. (Lucio)
author_sort Peña, M. (Marian)
title Use of SDWBA predictions for acoustic volume backscattering and the Self-Organizing Map to discern frequencies identifying Meganyctiphanes norvegica from mesopelagic fish species
title_short Use of SDWBA predictions for acoustic volume backscattering and the Self-Organizing Map to discern frequencies identifying Meganyctiphanes norvegica from mesopelagic fish species
title_full Use of SDWBA predictions for acoustic volume backscattering and the Self-Organizing Map to discern frequencies identifying Meganyctiphanes norvegica from mesopelagic fish species
title_fullStr Use of SDWBA predictions for acoustic volume backscattering and the Self-Organizing Map to discern frequencies identifying Meganyctiphanes norvegica from mesopelagic fish species
title_full_unstemmed Use of SDWBA predictions for acoustic volume backscattering and the Self-Organizing Map to discern frequencies identifying Meganyctiphanes norvegica from mesopelagic fish species
title_sort use of sdwba predictions for acoustic volume backscattering and the self-organizing map to discern frequencies identifying meganyctiphanes norvegica from mesopelagic fish species
publisher Centro Oceanográfico de Baleares
publishDate 2016
url http://hdl.handle.net/10508/9968
https://doi.org/10.1016/j.dsr.2016.01.006
genre Meganyctiphanes norvegica
Northern krill
genre_facet Meganyctiphanes norvegica
Northern krill
op_relation MAFIA, SCAPA
0967-0637
http://hdl.handle.net/10508/9968
Deep-Sea Research Part I-Oceanographic Research Papers, 2,4210, 100. 2016: 50-64
doi:10.1016/j.dsr.2016.01.006
op_rights Attribution-NonCommercial-NoDerivs 3.0 Spain
http://creativecommons.org/licenses/by-nc-nd/3.0/es/
closedAccess
op_rightsnorm CC-BY-NC-ND
op_doi https://doi.org/10.1016/j.dsr.2016.01.006
container_title Deep Sea Research Part I: Oceanographic Research Papers
container_volume 110
container_start_page 50
op_container_end_page 64
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