A Systematic Review of Deep Learning Microalgae Classification and Detection

Madkour, Dina M.; Shapiai, Mohd Ibrahim; Aly, Hesham; Ismail, Zool Hilmi; Ibrahim, M. Z.

doi:10.1109/access.2023.3280410

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Cited by 7 publications

References 70 publications

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Green Chemicals From Microalgae

Makhlof,

Shehata,

EL-Sayed

2023

Reference Module in Materials Science and Materials Engineering

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Green Chemicals From Microalgae

Makhlof,

Shehata,

EL-Sayed

2023

Reference Module in Materials Science and Materials Engineering

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M-YOLO v8s: Classification and Identification of Different Microalgae Species Based on the Improved YOLO v8s Model for Prevention of Harmful Algal Blooms

Dong,

Wang,

Lin

et al. 2024

ACS EST Water

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“UDE DIATOMS in the Wild 2024”: a new image dataset of freshwater diatoms for training deep learning models

Venkataramanan,

Kloster,

Burfeid-Castellanos

et al. 2024

GigaScience

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BackgroundDiatoms are microalgae with finely ornamented microscopic silica shells. Their taxonomic identification by light microscopy is routinely used as part of community ecological research as well as ecological status assessment of aquatic ecosystems, and a need for digitalization of these methods has long been recognized. Alongside their high taxonomic and morphological diversity, several other factors make diatoms highly challenging for deep learning–based identification using light microscopy images. These include (i) an unusually high intraclass variability combined with small between-class differences, (ii) a rather different visual appearance of specimens depending on their orientation on the microscope slide, and (iii) the limited availability of diatom experts for accurate taxonomic annotation.FindingsWe present the largest diatom image dataset thus far, aimed at facilitating the application and benchmarking of innovative deep learning methods to the diatom identification problem on realistic research data, “UDE DIATOMS in the Wild 2024.” The dataset contains 83,570 images of 611 diatom taxa, 101 of which are represented by at least 100 examples and 144 by at least 50 examples each. We showcase this dataset in 2 innovative analyses that address individual aspects of the above challenges using subclustering to deal with visually heterogeneous classes, out-of-distribution sample detection, and semi-supervised learning.ConclusionsThe problem of image-based identification of diatoms is both important for environmental research and challenging from the machine learning perspective. By making available the so far largest image dataset, accompanied by innovative analyses, this contribution will facilitate addressing these points by the scientific community.

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A Systematic Review of Deep Learning Microalgae Classification and Detection

Cited by 7 publications

References 70 publications

Green Chemicals From Microalgae

Green Chemicals From Microalgae

M-YOLO v8s: Classification and Identification of Different Microalgae Species Based on the Improved YOLO v8s Model for Prevention of Harmful Algal Blooms

“UDE DIATOMS in the Wild 2024”: a new image dataset of freshwater diatoms for training deep learning models

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