@inproceedings{oai:jaxa.repo.nii.ac.jp:00038648,
 author = {今村, 俊介 and 此上, 一也 and 川崎, 春夫 and 山川, 史郎 and 高畑, 博樹 and 境澤, 大亮 and 久保田, 拓志 and 沖, 理子 and 石井, 昌憲 and Baron, Philippe and 水谷, 耕平 and 安井, 元昭 and 落合, 啓 and 岡本, 幸三 and 青梨, 和正 and 石橋, 俊之 and Satoh, Yohei and Imamura, Shunsuke and Konoue, Kazuya and Kawasaki, Haruo and Ymakawa, Shiro and Kohata, Hiroki and Sakaizawa, Daisuke and Kubota, Takuji and Oki, Riko and Ishii, Shoken and Baron, Philippe and Mizutani, Kohei and Yasui, Motoaki and Ochiai, Satoshi and Okamoto, Kozo and Aonashi, Kazumasa and Ishibashi, Toshiyuki},
 book = {第57回宇宙科学技術連合講演会講演集, Proceedings of 57th Space Sciences and Technology Conference},
 month = {Oct},
 note = {第57回宇宙科学技術連合講演会（2013年10月9日-11日. 米子コンベンションセンター（BiG SHiP）), 米子市, 鳥取県, Super low altitude satellites are satellites orbiting at an altitude less than 250km. They are using ion engines to compensate aerodynamic drag at the altitude. To demonstrate the feasibility and the system concept, Super-Low-Altitude-Test-Satellite named as SLATS has been developed by JAXA. In adition, JAXA has been studying a wind observation mission for future acturel uses of the orbit with Meteorological Research Institute(MRI) and National Institute of Information and Communications Technology(NICT). It has been elcidated that the orbit of the super low altitude is suitable for LIDAR(Light direction and ranging) using missioins. This paper shows the results of study for the Doppler LIDAR using mission at the super low altitude., 資料番号: AC1500007000, レポート番号: JSASS-2013-4114},
 publisher = {日本航空宇宙学会(JSASS), The Japan Society for Aeronautical and Space Sciences (JSASS)},
 title = {超低高度衛星技術の風向・風速観測ドップラライダミッションへの適用検討},
 year = {2013}
}