Quadrature-Phase-Shift-Keying Radio-over-Fiber Transmission for Coherent Optical and Radio Seamless Networks

Atsushi KANNO; Pham TIEN DAT; Toshiaki KURI; Iwao HOSAKO; Tetsuya KAWANISHI; Yoshihiro YASUMURA; Yuki YOSHIDA; Ken-ichi KITAYAMA

doi:10.1587/transele.E96.C.156

Special Section on Recent Progress in Microwave and Millimeter-Wave Photonics Technology

Quadrature-Phase-Shift-Keying Radio-over-Fiber Transmission for Coherent Optical and Radio Seamless Networks

Atsushi KANNO, Pham TIEN DAT, Toshiaki KURI, Iwao HOSAKO, Tetsuya KAWANISHI, Yoshihiro YASUMURA, Yuki YOSHIDA, Ken-ichi KITAYAMA

Author information

Atsushi KANNO
Photonic Network Research Institute, National Institute of Information and Communications Technology
Pham TIEN DAT
Photonic Network Research Institute, National Institute of Information and Communications Technology
Toshiaki KURI
Photonic Network Research Institute, National Institute of Information and Communications Technology
Iwao HOSAKO
Advanced ICT Research Institute, National Institute of Information and Communications Technology
Tetsuya KAWANISHI
Photonic Network Research Institute, National Institute of Information and Communications Technology
Yoshihiro YASUMURA
Graduate School of Engineering, Osaka University
Yuki YOSHIDA
Graduate School of Engineering, Osaka University
Ken-ichi KITAYAMA
Graduate School of Engineering, Osaka University

Keywords: radio over fiber, digital signal processing, coherent detection, millimeter-wave radio

JOURNAL RESTRICTED ACCESS

2013 Volume E96.C Issue 2 Pages 156-162

DOI https://doi.org/10.1587/transele.E96.C.156

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Abstract

We propose a coherent optical and radio seamless network concept that allows broadband access without deployment of additional optical fibers within an optical fiber dead zone while enhancing network resilience to disasters. Recently developed radio-over-fiber (RoF) and digital coherent detection technologies can seamlessly convert between optical and radio signals. A millimeter-wave radio with a capacity greater than 10Gb/s and high-speed digital signal processing is feasible for this purpose. We provide a preliminary demonstration of a high-speed, W-band (75-110GHz) radio that is seamlessly connected to an optical RoF transmitter using a highly accurate optical modulation technique to stabilize the center frequencies of radio signals. Using a W-band digital receiver with a sensitivity of -37dBm, we successfully transmitted an 18.6Gb/s quadrature-phase-shift-keying signal through both air and an optical fiber.

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