New procedure for protozoan white sport disease detection in mariculture fish based on artificial intelligence
Protozoan white spot disease, caused by Cryptocaryon irritans, poses a significant threat to marine fishes, resulting in a 100% mortality rate within a short period. Its impact extends beyond fish health, severely affecting commercial mariculture and causing substantial economic losses. The current...
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my.uum.etd.113012024-10-05T16:28:22Z https://etd.uum.edu.my/11301/ New procedure for protozoan white sport disease detection in mariculture fish based on artificial intelligence Siti Naquiah, Md Pauzi SH Aquaculture. Fisheries. Angling Protozoan white spot disease, caused by Cryptocaryon irritans, poses a significant threat to marine fishes, resulting in a 100% mortality rate within a short period. Its impact extends beyond fish health, severely affecting commercial mariculture and causing substantial economic losses. The current standard procedure for early fish disease detection, reliant on time-consuming external gross observation, underscores the need for faster and more reliable automated approaches. In response to this issue, this study explores Artificial Intelligence (AI) as a transformative tool in fish disease detection. This study involved fine-tuning several convolutional neural networks (CNN) architectures including AlexNet, ResNet50, GoogleNet, ResNet101, and Vgg16Net to discern the most effective architecture for the proposed new procedure. Leveraging the success of CNN, particularly using the CNN’s ResNet50 architecture, this study introduced a new procedure via integration of contrast-adaptive colour correction (CACC) with CNN for protozoan white spot disease detection using underwater images. Experimental finding reveals outstanding performance of the procedure, with the ResNet50 CNN architecture integrated with CACC achieving a testing accuracy of 99.52% on the acquired dataset, indicating that this new procedure holds immense promise in early fish disease prevention and intervention by providing an efficient and precise approach to protozoan white spot disease detection. While this experimental stage study demonstrates encouraging results, future endeavours should focus on extensive refinement and collaboration to elevate the procedure’s readiness for on-site implementation. In summary, the integration of AI-driven techniques not only improves detection accuracy but also streamlines processes, potentially safeguarding marine fish populations and the aquaculture industry. 2024 Thesis NonPeerReviewed text en https://etd.uum.edu.my/11301/1/depositpermission.pdf text en https://etd.uum.edu.my/11301/2/s828023_01.pdf Siti Naquiah, Md Pauzi (2024) New procedure for protozoan white sport disease detection in mariculture fish based on artificial intelligence. Masters thesis, Universiti Utara Malaysia. |
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UUM Library |
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Malaysia |
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| language |
English English |
| topic |
SH Aquaculture. Fisheries. Angling |
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SH Aquaculture. Fisheries. Angling Siti Naquiah, Md Pauzi New procedure for protozoan white sport disease detection in mariculture fish based on artificial intelligence |
| description |
Protozoan white spot disease, caused by Cryptocaryon irritans, poses a significant threat to marine fishes, resulting in a 100% mortality rate within a short period. Its impact extends beyond fish health, severely affecting commercial mariculture and causing substantial economic losses. The current standard procedure for early fish disease detection, reliant on time-consuming external gross observation, underscores the need for faster and more reliable automated approaches. In response to this issue, this study explores Artificial Intelligence (AI) as a transformative tool in fish disease detection. This study involved fine-tuning several convolutional neural networks (CNN) architectures including AlexNet, ResNet50, GoogleNet, ResNet101, and Vgg16Net to discern the most effective architecture for the proposed new procedure. Leveraging the success of CNN, particularly using the CNN’s ResNet50 architecture, this study introduced a new procedure via integration of contrast-adaptive colour correction (CACC) with CNN for protozoan white spot disease detection using underwater images. Experimental finding reveals outstanding performance of the procedure, with the ResNet50 CNN architecture integrated with CACC achieving a testing accuracy of 99.52% on the acquired dataset, indicating that this new procedure holds immense promise in early fish disease prevention and intervention by providing an efficient and precise approach to protozoan white spot disease detection. While this experimental stage study demonstrates encouraging results, future endeavours should focus on extensive refinement and collaboration to elevate the procedure’s readiness for on-site implementation. In summary, the integration of AI-driven techniques not only improves detection accuracy but also streamlines processes, potentially safeguarding marine fish populations and the aquaculture industry. |
| format |
Thesis |
| author |
Siti Naquiah, Md Pauzi |
| author_facet |
Siti Naquiah, Md Pauzi |
| author_sort |
Siti Naquiah, Md Pauzi |
| title |
New procedure for protozoan white sport disease detection in mariculture fish based on artificial intelligence |
| title_short |
New procedure for protozoan white sport disease detection in mariculture fish based on artificial intelligence |
| title_full |
New procedure for protozoan white sport disease detection in mariculture fish based on artificial intelligence |
| title_fullStr |
New procedure for protozoan white sport disease detection in mariculture fish based on artificial intelligence |
| title_full_unstemmed |
New procedure for protozoan white sport disease detection in mariculture fish based on artificial intelligence |
| title_sort |
new procedure for protozoan white sport disease detection in mariculture fish based on artificial intelligence |
| publishDate |
2024 |
| url |
https://etd.uum.edu.my/11301/1/depositpermission.pdf https://etd.uum.edu.my/11301/2/s828023_01.pdf https://etd.uum.edu.my/11301/ |
| _version_ |
1814056928468271104 |
| score |
13.250246 |