IEEE Photonics Journal (Jan 2020)

AquaE-lite Hybrid-Solar-Cell Receiver-Modality for Energy-Autonomous Terrestrial and Underwater Internet-of-Things

  • Meiwei Kong,
  • Jiaming Lin,
  • Yujian Guo,
  • Xiaobin Sun,
  • Mohammed Sait,
  • Omar Alkhazragi,
  • Chun Hong Kang,
  • Jorge A. Holguin-Lerma,
  • Malika Kheireddine,
  • Mustapha Ouhssain,
  • Burton H. Jones,
  • Tien Khee Ng,
  • Boon S. Ooi

DOI
https://doi.org/10.1109/JPHOT.2020.3013995
Journal volume & issue
Vol. 12, no. 4
pp. 1 – 13

Abstract

Read online

Our goal is to develop an energy-autonomous solar cell receiver that can be integrated with a variety of smart devices to implement the Internet of Things in next-generation applications. This paper details efforts to develop such a prototype, called AquaE-lite. Owing to the capability of detecting low-intensity optical signals, 20-m and 30-m long-distance lighting and optical wireless communication with data rates of 1.6 Mbit/s and 1.2 Mbit/s have been achieved on a laboratory testbed, respectively. Moreover, field trials on an outdoor solar cell testbed and in the turbid water of a harbor by the Red Sea have been conducted. Under bright sunlight, energy autonomy and 1.2-Mbit/s optical wireless communication over a transmission distance of 15 m have been implemented, which demonstrated that AquaE-lite with an elaborate receiver circuit has excellent performance in energy harvesting and resistance to background noise. In a more challenging underwater environment, 1.2-Mbit/s signals were successfully received over a transmission distance of 2 m. It indicates that energy-autonomous AquaE-lite with large detection area has promising prospects in future underwater mobile sensor networks to significantly relieve the requirement of pointing, acquisition and tracking while resolving the energy issues.

Keywords