We describe the application of visible light communication in the design of a steerable free-space optical communications link to support mobile users in indoor spaces. In contrast to static indoor lighting cells, our system achieves beam direction and field control to track mobile devices to improve SINR performance.

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A bidirectional 60-GHz/30-GHz/15-GHz wireless-over-fiber transmission system based on an optical Interleaver and a phase modulator to deliver intensity-modulated 60-GHz MMW, 30-GHz MW, and phase-remodulated 15-GHz MW data signals is proposed and demonstrated.

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A 11.2-Gbps visible light communication based on a 450-nm blue laser diode over a 7-m free-space link is preliminarily demonstrated, in which the FEC qualified 16-QAM OFDM data with EVM of 15.9%, SNR of 16 dB, and BER of 1.8E-3 is observed.

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An injection-locked colorless laser diode carried 256-QAM OFDM data at 40 Gbit/s is implemented after passing through a 25-km single-mode fiber (SMF) and a LEAF fiber. By employing an OFDM subcarrier per-leveling, the bit error rate of 25-km SMF/LEAF transmitted data can be improved to 5.7E-3/2E-3.

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200-Gbps 60-km OFDM transmission in a 4-channel WDM system is demonstrated with 29-dB loss budget per channel without inline and pre-amplifier. Employing 10-GHz EAM and PIN, the LR-PON can support 64 ONUs with >2.5-Gbps/ONU capacity.

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