Gray whale detection in satellite imagery using deep learning

Katherine M. Green; Mala K. Virdee; Hannah C. Cubaynes; Angelica I. Aviles‐Rivero; Peter T. Fretwell; Patrick C. Gray; David W. Johnston; Carola‐Bibiane Schönlieb; Leigh G. Torres; Jennifer A. Jackson

doi:10.1002/rse2.352

Remote Sensing in Ecology and Conservation (Dec 2023)

Gray whale detection in satellite imagery using deep learning

Katherine M. Green,
Mala K. Virdee,
Hannah C. Cubaynes,
Angelica I. Aviles‐Rivero,
Peter T. Fretwell,
Patrick C. Gray,
David W. Johnston,
Carola‐Bibiane Schönlieb,
Leigh G. Torres,
Jennifer A. Jackson

Affiliations

Katherine M. Green: British Antarctic Survey Cambridge UK
Mala K. Virdee: Department of Computer Science and Technology University of Cambridge Cambridge UK
Hannah C. Cubaynes: British Antarctic Survey Cambridge UK
Angelica I. Aviles‐Rivero: Department of Applied Mathematics Theoretical Physics University of Cambridge Cambridge UK
Peter T. Fretwell: British Antarctic Survey Cambridge UK
Patrick C. Gray: Marine Laboratory Duke University Durham North Carolina USA
David W. Johnston: Marine Laboratory Duke University Durham North Carolina USA
Carola‐Bibiane Schönlieb: Department of Applied Mathematics Theoretical Physics University of Cambridge Cambridge UK
Leigh G. Torres: Marine Mammal Institute Oregon State University Corvallis OR USA
Jennifer A. Jackson: British Antarctic Survey Cambridge UK

DOI: https://doi.org/10.1002/rse2.352
Journal volume & issue: Vol. 9, no. 6
pp. 829 – 840

Abstract

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Abstract The combination of very high resolution (VHR) satellite remote sensing imagery and deep learning via convolutional neural networks provides opportunities to improve global whale population surveys through increasing efficiency and spatial coverage. Many whale species are recovering from commercial whaling and face multiple anthropogenic threats. Regular, accurate population surveys are therefore of high importance for conservation efforts. In this study, a state‐of‐the‐art object detection model (YOLOv5) was trained to detect gray whales (Eschrichtius robustus) in VHR satellite images, using training data derived from satellite images spanning different sea states in a key breeding habitat, as well as aerial imagery collected by unoccupied aircraft systems. Varying combinations of aerial and satellite imagery were incorporated into the training set. Mean average precision, whale precision, and recall ranged from 0.823 to 0.922, 0.800 to 0.939, and 0.843 to 0.889, respectively, across eight experiments. The results imply that including aerial imagery in the training data did not substantially impact model performance, and therefore, expansion of representative satellite datasets should be prioritized. The accuracy of the results on real‐world data, along with short training times, indicates the potential of using this method to automate whale detection for population surveys.

Published in Remote Sensing in Ecology and Conservation

ISSN: 2056-3485 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology; Science: Biology (General): Ecology
Website: http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)2056-3485

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