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Implications of single-stage deep learning networks in real-time zooplankton identifi­cation


Affiliations
1 Marine Instrumentation Division (Computer Vision and AI), CSIR-National Institute of Oceanography, Dona Paula, Goa 403 004, India
2 Biological Oceanography Division, CSIR-National Institute of Oceanography, Dona Paula, Goa 403 004, India
3 Aquaculture Department, SINTEF Ocean AS, Trondheim, Norway
4 Department of Engineering Cybernetics, Norwegian University of Science and Technology (NTNU), Trondheim, Norway

Zooplankton are key ecological components of the marine food web. Currently, laboratory-based methods of zooplankton identification are manual, time-consuming, prone to human error and require expert taxonomists. Therefore, alternative methods are needed. In this study, we describe, implement and compare the performance of six state-of-the-art single-stage deep learning models for automated zooplankton identification. The highest prediction accuracy achieved is 99.50%. The fastest detection speed is 285 images per second, making the models suitable for real-time zooplankton classification. We validate the predictions of the generated models on unseen images. The results demonstrate the capabilities of the latest deep learning models in zooplankton identification.

Keywords

Artificial intelligence, deep learning networks, imaging, marine biology, zooplankton
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  • Implications of single-stage deep learning networks in real-time zooplankton identifi­cation

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Authors

Sadaf Ansari
Marine Instrumentation Division (Computer Vision and AI), CSIR-National Institute of Oceanography, Dona Paula, Goa 403 004, India
Dattesh V. Desai
Biological Oceanography Division, CSIR-National Institute of Oceanography, Dona Paula, Goa 403 004, India
Aya Saad
Aquaculture Department, SINTEF Ocean AS, Trondheim, Norway
Annette Stahl
Department of Engineering Cybernetics, Norwegian University of Science and Technology (NTNU), Trondheim, Norway

Abstract


Zooplankton are key ecological components of the marine food web. Currently, laboratory-based methods of zooplankton identification are manual, time-consuming, prone to human error and require expert taxonomists. Therefore, alternative methods are needed. In this study, we describe, implement and compare the performance of six state-of-the-art single-stage deep learning models for automated zooplankton identification. The highest prediction accuracy achieved is 99.50%. The fastest detection speed is 285 images per second, making the models suitable for real-time zooplankton classification. We validate the predictions of the generated models on unseen images. The results demonstrate the capabilities of the latest deep learning models in zooplankton identification.

Keywords


Artificial intelligence, deep learning networks, imaging, marine biology, zooplankton



DOI: https://doi.org/10.18520/cs%2Fv125%2Fi11%2F1259-1266