日本語フィールド
著者:Tsujimura, Takeshi; Shimada, Yuta; Tashiro, Yuki; Izumi, Kiyotaka; Yoshida, Koichi題名:Optical axis adjustment system for free space optics transmission発表情報:39th International Conference on Telecommunications and Signal Processing ページ: 731-734キーワード:概要:© 2016 IEEE.This paper describes optical axis adjustment technique for an active free space optics transmission system. This system precisely controls the direction of a collimated thin laser beam using a motor driven laser emitting mechanism and positioning photodiodes. Before beginning laser beam feedback control, it is required to guide the laser beam within the range of the positioning photodiodes for initial laser beam alignment. This paper proposes an arrival position presumption method of laser beam traveling along the long distance from transmitter. A positioning sensor containing several photodiodes measures laser luminescence distribution, and the optical axis of laser beam is analytically calculated according to a modified Gaussian beam optics. Experiments are conducted to evaluate the accuracy of the presumption, and results reveal that the method is effective in leading the laser beam onto a distant receiver.抄録:英語フィールド
Author:Tsujimura, Takeshi; Shimada, Yuta; Tashiro, Yuki; Izumi, Kiyotaka; Yoshida, KoichiTitle:Optical axis adjustment system for free space optics transmissionAnnouncement information:39th International Conference on Telecommunications and Signal Processing Page: 731-734An abstract:© 2016 IEEE.This paper describes optical axis adjustment technique for an active free space optics transmission system. This system precisely controls the direction of a collimated thin laser beam using a motor driven laser emitting mechanism and positioning photodiodes. Before beginning laser beam feedback control, it is required to guide the laser beam within the range of the positioning photodiodes for initial laser beam alignment. This paper proposes an arrival position presumption method of laser beam traveling along the long distance from transmitter. A positioning sensor containing several photodiodes measures laser luminescence distribution, and the optical axis of laser beam is analytically calculated according to a modified Gaussian beam optics. Experiments are conducted to evaluate the accuracy of the presumption, and results reveal that the method is effective in leading the laser beam onto a distant receiver.