Abstract-Millimeter- and terahertz-wave radio-over-fiber for 5G and beyond

Pham Tien Dat,  Atsushi Kanno,  Toshimasa Umezawa,  Naokatsu Yamamoto,  Tetsuya Kawanish

http://ieeexplore.ieee.org/document/8012702/

This paper reviews our recent research activities on seamless fiber-wireless systems for future mobile networks, including: radio-on-radio-over-fiber; signal processing-aided multiple signal transmission; high-capacity seamless system; and simultaneous power- and radio-over-fiber.

Abstract-Seamless Fiber-Wireless Bridge in the Millimeter- and Terahertz-Wave Bands

Atsushi Kanno, Pham Tien Dat, Norihiko Sekine, Iwao Hosako, Naokatsu Yamamoto, Yuki Yoshida, Ken-Ichi Kitayama, and Tetsuya Kawanishi

https://www.osapublishing.org/jlt/ViewMedia.cfm?uri=jlt-34-20-4794&seq=0

Fiber-wireless transmission in the terahertz-wave band as well as in the millimeter-wave band is the key for a seamless integration of radio and optical networks in a physical layer. Advanced optical fiber communication technology enables a high precision direct waveform transfer between optical and radio domains. For realization of a seamless conversion, an optical-terahertz converter is configured with optical heterodyning for an optical-to-terahertz conversion. Analog optical modulation techniques by an input millimeter-wave signal and an intermediate frequency component after a frequency downconversion are utilized for a terahertz-to-optical conversion. A quadrature phase-shift keying signal transmission in an optical-fiber-to-radio-to-optical-fiber link (fiber-wireless bridge) is successfully demonstrated with the 90 and 300-GHz signals, simultaneously, using an optical frequency comb source. The possible transmission distance in severe weather conditions in these frequency bands is also discussed.

© 2016 IEEE

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