CNNを用いた養殖池水底環境の分類と空間分布の推定

尾﨑 彰則, 入江 博樹, 葉山 清輝, 岡﨑 祥明, 岡安 崇史

doi:10.12792/iiae2025.025

This study presents a practical approach for monitoring pond bottom conditions in kuruma shrimp (Marsupenaeus japonicus) aquaculture by combining an autonomous boat, an underwater camera, and deep learning-based image classification. Underwater videos were collected during autonomous navigation in a shrimp pond located in Amakusa, Japan. From the videos, 128×128 pixel image patches were manually extracted and labeled into four categories based on visual features: (1) gravel, (2) residual feed pellets, (3) white fungal-like matter, and (4) sludge-like sediment. A convolutional neural network (CNN) was developed and trained using these labeled patches. The trained model was then applied to classify pond bottom conditions by segmenting video frames into non-overlapping 128×128 patches and assigning class labels to each. The resulting spatial distribution maps revealed that residual feed tended to accumulate in low-flow regions, while sludge-like sediment was often found behind aerators. These spatial patterns indicated localized organic matter accumulation and environmental degradation, providing useful information for pond management. The proposed approach offers a low-cost and efficient tool for visualizing bottom conditions and supporting decision-making in aquaculture operations.

CNNを用いた養殖池水底環境の分類と空間分布の推定

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収録刊行物

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CNNを用いた養殖池水底環境の分類と空間分布の推定

書誌事項

説明

収録刊行物

詳細情報 詳細情報について

書き出し

問題の指摘

詳細情報詳細情報について