In recent years, high-speed visible light communications (VLC) have been identified as an essential part of optical wireless communication technologies for next generation 6G network. As one of the fast-growing techniques in VLC, underwater wireless optical communication (UWOC) offers the unique advantages of enabling ultra-high data rate Internet of Underwater Things (IoUT).
Continue reading “Optoelectronic device and physical layer technology for high-speed underwater wireless optical communications”The Role of LiFi in 6G
We will review the current trends in 6G. In this context will showcase the opportunities for optical wireless communications in general and LiFi in particular. We will provide examples of ongoing activities as part of the new 6G research platform in the UK: PlaTform DrIving The UltimAte CoNnectivity (TITAN) on the future network of networks (NoN). TITAN is a consortium of 16 universities in the UK.
Continue reading “The Role of LiFi in 6G”LiFi in space
LiFi, short for Light Fidelity, is a wireless communication technology that uses visible light instead of radio waves to transmit data. LiFi is based on the principle of Visible Light Communication (VLC), where LED lights are used as transmitters to send data to a receiver, which is typically a photodiode.
Continue reading “LiFi in space”Applications for Retail, museums and public spaces
Optical Camera Communications (OCC) is a technology that allows for high-speed data transfer through visible light. The technology is popular in various industries, including retail, museums, and other locations where reliable and fast data transfer is required. OCC works by using LEDs to transmit data through light waves, which can then be received and interpreted by cameras or other optical sensors.
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