Abstract
Beam-steered infrared light communication (BS-ILC) is a promising technology to establish high data rate links for next-generation indoor optical wireless networks. However, practical limitations such as localization latency and handover delay make challenging to implement a reliable BS-ILC system for mobile user devices. This letter studies mobility management, enabling the user devices to stay connected while they are on the move. Our BS-ILC system uses a wavelength domain where each wavelength covers one wireless cell. A camera-based localization determines the position of user devices relative to access points. With the help of a prediction algorithm, we demonstrated real-time localization with a <; 4mm tracking error. Furthermore, we propose and evaluate experimentally hard and soft handover mechanisms to support inter-cell user mobility. This is the first demonstration of seamless transmission in a BS-ILC system to the best of our knowledge.
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