Rchr
J-GLOBAL ID:202101003475754835   Update date: Sep. 22, 2024

Imaki Masaharu

イマキ マサハル | Imaki Masaharu
Affiliation and department:
Research field  (2): Communication and network engineering ,  Measurement engineering
Research keywords  (1): 光計測、光通信
Research theme for competitive and other funds  (3):
  • 2022 - 2027 Development and experimental validation of water vapor and wind lidar for early prediction of heavy rain
  • 2006 - 2007 Development of highly sensitive optical fiber sensor system for wide-area disaster prevention
  • 2004 - 2005 Development of Highly Sensitive Infrared Laser Image Sensing Technique and its Application
Papers (26):
  • Masaharu Imaki, Hisamichi Tanaka, Kenichi Hirosawa, Takayuki Yanagisawa, Shumpei Kameyama. Demonstration of the 1.53-μm coherent DIAL for simultaneous profiling of water vapor density and wind speed. Optics Express. 2020. 28. 18. 27078-27078
  • Masaharu Imaki, Kenichi Hirosawa, Takayuki Yanagisawa, Shumpei Kameyama, Hiroaki Kuze. Wavelength selection and measurement error theoretical analysis on ground-based coherent differential absorption lidar using 1.53 μm wavelength for simultaneous vertical profiling of water vapor density and wind speed. Applied Optics. 2020. 59. 8. 2238-2238
  • Masaharu Imaki, Kenichi Hirosawa, Takayuki Yanagisawa, Shumpei Kameyama. First measurement results of water vapor profile using 1.53 micron coherent differential absorption LIDAR. 19th Coherent Laser Radar Conference, CLRC 2018. 2018
  • Hidenobu Tsuji, Masaharu Imaki, Nobuki Kotake, Akihito Hirai, Masaharu Nakaji, Shumpei Kameyama. Range imaging pulsed laser sensor with two-dimensional scanning of transmitted beam and scanless receiver using high-aspect avalanche photodiode array for eye-safe wavelength. Optical Engineering. 2016. 56. 3. 031216-031216
  • Shumpei Kameyama, Akihito Hirai, Masaharu Imaki, Nobuki Kotake, Hidenobu Tsuji, Yuichi Nishino, Yusuke Ito, Mikio Takabayashi, Yasuhisa Tamagawa, Masaharu Nakaji, et al. Demonstration on range imaging of 256 × 256 pixels and 30 frames per second using short wavelength infrared pulsed time-of-flight laser sensor with linear array receiver. Optical Engineering. 2016. 56. 3. 031214-031214
more...
Association Membership(s) (2):
レーザセンシング学会 ,  レーザー学会
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