Anagnostis Paraskevopoulos

TL;DR: Current achievements and trends in high-speed indoor visible light communication (VLC) research are presented and for the first time, a bidirectional real-time VLC prototype achieving data rates of up to 500 Mb/s is presented.

TL;DR: This paper summarizes recent work on the use of optical wireless links as a robust outdoor backhaul solution for small radio cells, such as WiFi, LTE and 5G, over distances between 20 and 200 m and discusses further evolution towards 5G mobile networks.

TL;DR: In this article, a scalable (24-140 Gb/s) optical data link is presented, developed for future implementation in maskless lithography systems, which comprises a high-speed data buffer with synchronizable architecture and scalable throughput (N × 24 Gb /s), an optical free-space transmission solution, and finally, a 45-channel low-noise optical receiver chip based on BiCMOS 0.6 μm technology.

TL;DR: In this paper, the main experimental results achieved by the research group in the area of high-speed wireless visible light communication (VLC) were reviewed and compared using off-the-shelf optical components.

TL;DR: Recent research yielded insights into diverse concepts of VLC data transmission using phosphorescent as well as RGB (red, green, blue)type white-light LEDs originally developed for illumination purposes, which offer promising modulation potential for both single-channel transmission and wavelength division multiplexing.