@article{oai:repository.naro.go.jp:00002573,
 author = {鈴木, 亨 and SUZUKI, Tohru and 吉永, 有一 and YOSHINAGA, Yuichi and 宮田, 正文 and MIYATA, Masafumi and 木村, 彰一 and KIMURA, Syoichi and 勝田, 賢 and KATSUDA, Ken},
 journal = {農研機構研究報告　動物衛生研究部門, Bulletin of the NARO, National Institute of Animal Health},
 month = {Mar},
 note = {子牛の集約的・多頭管理の大規模農場において，作業従事時間の短縮と労力低減をもたらす哺乳ロボットと，非侵襲性及び省力性に優れた赤外線サーモグラフィーによる体温測定を組み合わせた子牛の自動健康管理システムを開発した。哺乳量の低下と発熱を同時に検知することで，体調不良（病気）の個体を早期に精度よく発見することが可能となり，早期治療あるいは集団内における病気の蔓延防止に役立つことが大いに期待できる。また本システムは，同時に，飼育環境の温度測定も行っているため，病気を引き起こすリスク要因の把握にも貢献する。本システムの導入により，総合的な農場衛生管理システム構築の基礎を確立した。, The economic losses of calves, which susceptible to infectious pathogens causing diarrhea and pneumonia are serious. An early detection of infected calves is important to implement effective treatment and control disease within herds. Body temperature is one of suitable parameters to exhibit health condition of animal. Infrared thermography is a noninvasive sensing technique, and is superior to measure quickly object’s temperatures. Our system using the infrared thermography can comprehend health condition of animal by monitoring of ophthalmic max temperature correlating with
rectal temperature during drinking milk fed by robot. In addition, this system has an optional function which correct ophthalmic max temperature according to daily fluctuation of ambient temperature by monitoring ambient temperature continuously. In conclusion, this system enables early detection of abnormal animal, and it will lead to carry out appropriate treatment promptly. Hence it would contribute to reducing animal suffering and improving the economic losses in farm. This system is patent pending in Japan.},
 pages = {33--37},
 title = {赤外線サーモグラフィーを用いた子牛の健康管理システムの開発},
 volume = {124},
 year = {2018},
 yomi = {スズキ, トオル and ヨシナガ, ユウイチ and ミヤタ, マサフミ and キムラ, ショウイチ and カツダ, ケン}
}