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Abstract
With the advent of Internet-of-Things (IoT), the conventional radio frequency (RF) communication technology with a congested spectrum of 300 GHz cannot meet the ever-increasing demand for broadband transmission. By exploiting an unlicensed spectrum of ~ 30 PHz, optical wireless communication (OWC) technology is supposed to significantly relieve the load of RF spectrum to support the massive connectivity of IoT devices in the era of fifth-generation networks and beyond. Up to now, continuous breakthroughs in the field of free-space optical communication, visible light communication, and underwater wireless optical communication (UWOC) are laying a solid foundation for the realization of OWC across satellite-air-ground-ocean (SAGO) boundaries, which is expected to considerably accelerate the pace of realizing globally-connected IoT. In this talk, we will briefly introduce the current progress of UWOC research and development toward applications in SAGO OWC.
Brief Biography
Meiwei Kong is a Postdoctoral Research Fellow at Photonics Laboratory in the Division of Computer, Electrical and Mathematical Sciences & Engineering at King Abdullah University of Science and Technology. She received her Ph.D. degree in marine information science and engineering at the School of Ocean College of Zhejiang University in 2018. Her current research interests are digital signal processing, indoor/underwater optical wireless communication system and network design, and wireless power transfer.