IEEE Photonics Journal (Jan 2019)

An 82-m 9 Gb/s PAM4 FSO-POF-UWOC Convergent System

  • Chung-Yi Li,
  • Hai-Han Lu,
  • Yun-Chieh Wang,
  • Zhen-Han Wang,
  • Chung-Wei Su,
  • Yi-Feng Lu,
  • Wen-Shing Tsai

DOI
https://doi.org/10.1109/JPHOT.2018.2890514
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 9

Abstract

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With the increasing demand for free-space/underwater environmental monitoring, disaster precaution, and manufacturing industry applications, free-space optical (FSO)-plastic optical fiber (POF)-underwater wireless optical communication (UWOC) convergence is designed to be a promising framework for providing long-haul free-space with underwater links. An 82-m 9 Gb/s four-level pulse amplitude modulation (PAM4) FSO-POF-UWOC convergent system employing a 405-nm blue-light injection-locked laser diode (LD) is thereby offered and practically demonstrated. Results reveal that a 1.8-GHz 405-nm blue-light injection-locked LD can be effectively applied for a 9-Gb/s PAM4 signal transmission over 50-m FSO link, 30-m graded-index (GI)-POF transportation, and 2 m clear ocean underwater channel. To the authors' understanding, this study is the first to practically build an 82-m 9 Gb/s PAM4 FSO-POF-UWOC convergent system that effectively constructs a long-haul optical wireless-wired-wireless link using doublet lenses, GI-POF, and optical beam reducer. The performances of the proposed convergent systems are analyzed by bit error rate and non-return-to-zero eye diagram in real-time over an 82-m transport. This framework is the leading one to establish a long-haul FSO-POF-UWOC convergent system with qualified transmission performances. It guides a promising way to facilitate wide applications in the convergence of FSO, POF, and UWOC.

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