@inproceedings{oai:jaxa.repo.nii.ac.jp:00038599,
 author = {荒木, 智宏 and 稲岡, 和也 and 田島, 成将 and 市川, 愉 and 谷島, 正信 and Araki, Tomohiro and Inaoka, Kazuya and Tashima, Yoshiyuki and Ichikawa, Satoshi and Yajima, Masanobu},
 book = {International Conference on Space Optical Systems and Applications (ICSOS)2014},
 month = {May},
 note = {宇宙光学システムと応用に関する国際会議(ICSOS)2014 (2014年5月7日-9日. 神戸国際会議場), 神戸市, 兵庫県, International Conference on Space Optical Systems and Applications (ICSOS)2014 (May 7-9, 2014. Kobe International Conference Center）, Kobe, hyogo, Japan, The requirements of optical space communicationtechnology mean smaller onboard communication terminals mustbe developed and operated to satisfy future data transmissionneeds in the 2020s and beyond. JAXA has developed the“KIRARI OICETS” (Optical Inter-orbit CommunicationEngineering Test Satellite) and established acquisition, pointingand tracking techniques on orbit. The optical communicationterminal “LUCE” on “KIRARI” is large (150 kg) and has a lowdata rate (50 Mbps) compared to the practical requirementimposed, hence our wish to achieve a more high speed, compactand long-lasting optical communication terminal. We describeour recent activity to achieve a new-generation opticalcommunication terminal by applying excellent ground opticalcommunication technologies and new devices., 資料番号: AC1400015000},
 publisher = {情報通信研究機構（NICT）, National Institute of Information and Communications Technology(NICT)},
 title = {The approach to realize a higher speed, more compact and longer-lasting operational optical space communications system},
 year = {2014}
}