Proposal of a Pre-equalizer with Nyquist Filtering to Mitigate LED Nonlinearity in PAM-4 VLC Systems

2022 10th International Japan-Africa Conference on Electronics, Communications, and Computations (JAC-ECC) Pub Date : 2022-12-19 DOI:10.1109/JAC-ECC56395.2022.10043918

Camellia S. Mouhammad, M. El-Shimy, H. Shalaby, H. N. Kheirallah

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Abstract

Visible light communication (VLC) systems are widely considered for adoption in the upcoming sixth-generation (6G) systems. This is because they provide a power-efficient, noncomplex, unlicensed frequency band, safe, and secure solution for data transmission. High data rates up to gigabit per second have been achieved in research over the past years using VLC. However, in order to achieve high data rates in such systems utilizing light emitting diodes (LEDs) already in the infrastructure, it is crucial to mitigate its impairments such as limited frequency response (tens of MHz bandwidth) and nonlinearity. In this paper, a novel transmitter system is proposed to compensate for the two main limitations in LED-based VLC systems. Different pulse shaping Nyquist filtering techniques are applied to minimize inter-symbol interference (ISI) caused by the LED's small modulation bandwidth. Additionally, a preequalizer is presented to alleviate LED nonlinearity. Results show an overall linear transmission and a significant enhancement in symbol-error rates (SER). Moreover, out-of-band side lobes are successfully suppressed, thus requiring smaller bandwidth for signal transmission without loss of information.

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利用奈奎斯特滤波的预均衡器缓解PAM-4 VLC系统中LED的非线性

可见光通信(VLC)系统被广泛认为将在即将到来的第六代(6G)系统中采用。这是因为它们为数据传输提供了一种节能、不复杂、无需授权的频段、安全可靠的解决方案。在过去的几年里，使用VLC的研究已经实现了高达每秒千兆比特的高数据速率。然而，为了在这样的系统中利用已经在基础设施中的发光二极管(led)实现高数据速率，减轻其缺陷如有限的频率响应(数十MHz带宽)和非线性是至关重要的。本文提出了一种新的发射机系统，以弥补基于led的VLC系统的两个主要限制。采用不同的脉冲整形奈奎斯特滤波技术来减小由于LED调制带宽小而引起的码间干扰。此外，提出了一个预均衡器，以减轻LED的非线性。结果显示了整体的线性传输和符号错误率(SER)的显着增强。此外，成功地抑制了带外旁瓣，从而在不丢失信息的情况下需要更小的带宽进行信号传输。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2022 10th International Japan-Africa Conference on Electronics, Communications, and Computations (JAC-ECC)

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