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Coral Intel: a YOLOv8 deep learning framework for monitoring Caribbean corals

Elvin Cordero, Clark E. Sherman, Priyanka Yadav, Venkatesh Kumar Raju, Joseph E. Townsend, Travis A. Courtney
June 5, 2026
Published Date

Research Abstract & Technology Focus

Abstract This study evaluated the performance of YOLOv8 object detection framework for identifying Caribbean scleractinian corals in underwater imagery. A dataset of 10373 coral images, expanded to 32423 images via augmentation, was used to train genus- and species-level models spanning 59 taxa. In the held-out test imagery, the genus-level model achieved a mean average Precision ( mAP 50 ) of 0.954, whereas the species-level model reached 0.938, with the performance varying by taxon and generally the highest for morphologically distinctive genera such as Isophyllia and Scolymia . However, independent field validation using transect-based photoquadrat imagery revealed a substantially lower observation-level performance (species-level Precision = 0.389; Recall = 0.336), reflecting the influence of domain shift, morphological similarity among coral taxa, and sparse point-based annotations. Restricting evaluation to the nine species present in the transects improved separability, but did not fully eliminate false positives or missed detections, indicating that label-set reduction does not recover the test set performance under transect survey conditions. The top-down perspective of the field validation imagery lacked key morphological details from oblique-angled training imagery, suggesting model performance is best for near real-time classification from oblique, rather than using top-down, imagery. To facilitate applied deployment for general use, the trained models were integrated into Coral Intel, a web-based framework for automated coral detection currently available in prototype form. Although this study focused on the Caribbean coral taxa, this framework established a transferable foundation for regionally tuned deep learning models that may support scalable reef monitoring.
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This literature focuses on: Abstract This study evaluated the performance of YOLOv8 object detection framework for identifying Caribbean scleractinian corals in underwater imagery. A dataset of 10373 coral images, expanded to 32423 images via augmentation, was used to train ...

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Yes, highly correlated activity was mapped. An entry titled 'Adaptive energy-efficient and secure clustering-based routing architecture for underwater wireless sensor networks in marine environmental and ecosystem monitoring' discusses this: Introduction Reliable long-term monitoring of coral reefs and other marine ecosystems is limited by the harsh underwater environment, restricted ba...

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