@techreport{oai:ipsj.ixsq.nii.ac.jp:00216692,
 author = {中島, 颯太 and 角谷, 大樹 and 森井, 満優子 and 水谷, 信彰 and 島野, 顕継 and ムハマド, ニスワル and 樫原, 茂 and Sota, Nakajima and Daiki, Sumiya and Mayuko, Morii and Nobuaki, Mizutani and Akitsugu, Shimano and Muhammad, Niswar and Shigeru, Kashihara},
 issue = {10},
 month = {Feb},
 note = {ICT/IoT/AI 等の情報科学技術を用いたスマート養殖の推進が求められている．現在，スマート養殖においては，カキ，サバ，エビ類などの多品目において開始されており，これまで経験と勘で行われてきたことをデータ化することで，作業の効率化，適切な生産量の確保等に繋げようとしている．本稿では，ガザミ類，特にノコギリガザミ類に着目する．いまだ完全養殖が確立されていないガザミ類のスマート養殖化に貢献すべく，まずは実験室規模でガザミ類の生態を観察するため，IoT を用いた水産実験環境を構築した．この実験環境で取得したセンシングデータや映像は Web 上で表示され，遠隔から確認することができる．また，運用上で役立った事例を紹介し，今後の課題についてまとめた．, There is a need to promote smart aquaculture using information science technologies such as ICT/IoT/AI. Currently, smart aquaculture has been started in many species, such as oysters, mackerels, and shrimps. It is trying to improve work efficiency and secure appropriate production volume by converting what has been done by experienced and intuition into data. This paper focuses on crabs, especially Scylla Serrata, known as mud crab. Note that they have not yet been fully cultivated. To contribute to achieving the intelligent cultivation of these species, we first constructed an IoT-based experiment environment that can observe the ecology of these species on a laboratory scale. The sensing data and images acquired in this experimental environment are displayed on the Web and can be checked remotely. This paper also introduces valuable examples through the operation and summarizes the future issues.},
 title = {IoTを用いた水産実験環境の構築},
 year = {2022}
}