High-frequency Near-field Physeter macrocephalus Monitoring by Stereo-Autoencoder and 3D Model of Sonar Organ

Maxence Ferrari; Hervé Glotin; Ricard Marxer; Valentin Barchasz; Véronique Sarano; Valentin Gies; Mark Asch; François Sarano

High-frequency Near-field Physeter macrocephalus Monitoring by Stereo-Autoencoder and 3D Model of Sonar Organ

Maxence Ferrari ^{1, 2} Hervé Glotin ^{3, 2} Ricard Marxer ^{4, 2} Valentin Barchasz ³ Véronique Sarano ⁵ Valentin Gies ⁶ Mark Asch ⁷ François Sarano ⁸

1 LAMFA - Laboratoire Amiénois de Mathématique Fondamentale et Appliquée

2 DYNI - DYNamiques de l’Information

LIS - Laboratoire d'Informatique et Systèmes

3 UTLN - Université de Toulon

4 University of Sheffield [Sheffield]

5 Longitude 181

6 IM2NP - Institut des Matériaux, de Microélectronique et des Nanosciences de Provence

7 LAMFA - Laboratoire Amiénois de Mathématique Fondamentale et Appliquée

8 Bureau des Longitudes

Abstract : Passive acoustics allow us to study large animals and obtain information that could not be gathered through other methods. In this paper we study a set of near-field audiovisual recordings of a sperm whale pod, acquired with a ultra high-frequency and small aperture antenna. We propose a novel kind of autoencoder, a Stereo-Autoencoder, and show how it allows to build acoustic manifolds in order to increase our knowledge regarding the characterization of their vocalizations, and possible acoustic individual signature.

Keywords : Long Term Survey 3D Tracking Abyss Monitoring Weak Signal Detection Index Terms-Passive Acoustic Monitoring Cetacean Survey FDTD Stereo- Autoencoder Autoencoder Tran- sient Analysis

Document type :

Conference papers

Domain :

Life Sciences [q-bio] / Animal biology

Computer Science [cs] / Machine Learning [cs.LG]

Computer Science [cs] / Modeling and Simulation

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https://hal.archives-ouvertes.fr/hal-02313898
Contributor : Maxence Ferrari <>
Submitted on : Friday, October 11, 2019 - 3:48:12 PM
Last modification on : Tuesday, January 21, 2020 - 1:37:58 AM

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