Author_Institution :
Dept. of Commun. Sci. & Eng., Fudan Univ., Shanghai, China
Abstract :
In this paper, we propose and experimentally demonstrate a bi-directional indoor communication system based on visible light RGB-LED. Spectrally efficient modulation formats (QAM-OFDM), advanced digital signal processing, pre- and post-equalization are adopted to compensate the severe frequency response of indoor channel. In this system, we utilize red-green-blue Light emitting diodes (LEDs), of which each color can be used to carry different signals. For downlink, the low frequencies of each color are used while for uplink, the high frequencies are used. The overall data rate of downlink and uplink are 1.15-Gb/s and 300-Mb/s. The bit error ratios (BERs) for all channels after 0.7 m indoor delivery are below pre-forward-error-correction (pre-FEC) threshold of 3.8×103. To the best of our knowledge, this is the highest data rate in bi-directional visible light communication system.
Keywords :
OFDM modulation; error statistics; forward error correction; indoor communication; light emitting diodes; optical communication; quadrature amplitude modulation; telecommunication channels; BER; QAM-OFDM; advanced digital signal processing; bi-directional indoor communication system; bi-directional visible light communication system; bit error ratios; bit rate 1.15 Gbit/s; bit rate 300 Mbit/s; downlink; equalization; error-correction; frequency response; high-speed bi-directional visible light communication system; indoor channel; indoor delivery; modulation formats; preFEC threshold; preforward-error-correction; red-green-blue Light emitting diodes; uplink; visible light RGB-LED; Bidirectional control; Downlink; Image color analysis; Light emitting diodes; Modulation; OFDM; Uplink; bidirectional transmission; light emitting diode; orthogonal frequency division multiplexing; visible light communication;
