信道复用技术在LED水下可见光通信中的应用

Application of channel multiplexing technology in LED underwater visible light communication

  • 摘要: 以发光二极管(LED)为发射端的水下可见光通信(UVLC)系统因器件带宽所限其传输速率较低,且受水质环境影响较大,致使通信综合性能不佳。为提高信道容量与通信质量,将信道复用技术应用在LED-UVLC系统中,以现场可编程门阵列(FPGA)为数据处理核心,搭建LED蓝绿光发射阵列以及雪崩光电二极管(APD)接收阵列,设计出了一个4×4的多信道UVLC系统。我们将系统置于长20 m的水下环境中,以26.7 Mbit/s的通信速率,完成了误码率(BER)约为10−7的双向传输。实验数据表明,当传输不同大小的数据文件时,对比传统的单输入单输出水下可见光通信(SISO-UVLC)系统,节省了约4倍的通信时间,且与仿真的信道容量增益一致。另外,在水质和通信距离相同的条件下,本系统能获得更优的BER性能。

     

    Abstract: Underwater visible light communication (UVLC) system with light emitting diode (LED) as transmitter has a low transmission rate due to the limited device bandwidth and it is greatly affected by water environment quality that makes the communication comprehensive performance poor. In order to improve the channel capacity and communication quality, the channel multiplexing technology into the LED-UVLC system was applied. The FPGA was used as the data processing core, LED blue and green light emission array and avalanche photodiode (APD) receiving array were built, and a 4×4 multichannel UVLC system was designed. We placed the system in an underwater environment with a length of 20 m and achieved bidirectional transmission with a bit error rate (BER) of approximately 10−7 at a communication rate of 26.7 Mbit/s. The experimental results show that when transmitting data files of different sizes, compared with the traditional single input single output (SISO)-UVLC system, the communication time is saved about 4 times and the channel capacity gain is consistent with the simulation. In addition, with the same water quality and communication distance, the system can achieve better BER performance.

     

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