Applying NOMA to Undersampled Optical Camera Communication for Vehicular Communication

2018 Eleventh International Conference on Mobile Computing and Ubiquitous Network (ICMU) Pub Date : 2018-10-01 DOI:10.23919/ICMU.2018.8653621

C. Rapson, Boon-Chong Seet, P. Chong, R. Klette

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引用次数: 4

Abstract

Visible Light Communications (VLC) is being developed as an alternative to radio frequency (RF) communication for vehicular applications. It has the advantages of high signal-to-noise ratio (SNR), limited interference due to line-of-sight transmission and dual use of existing hardware (LED lights and cameras) on most modern vehicles. Camera based receivers typically sample light signals at a much slower rate than the frequency at which they are modulated by LED-based transmitters. To address the aliasing due to sampling at sub-Nyquist rate, a range of undersampled encoding methods have been proposed. A common disadvantage of these proposals has been a data rate on the order of ten bits per second, which is too low for most applications. This paper investigates the use of Non-Orthogonal Multiple Access(NOMA) to leverage the high SNR and increase the data rate for undersampled Optical Camera Communication (OCC). A significant increase in data rate can be achieved at the cost of some tradeoff in SNR. Further increase in data rate is possible when used in conjunction with other methods such as Wavelength Division Multiplexing, polarisation and MIMO arrays.

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在欠采样光学相机通信中的应用

可见光通信(VLC)正在发展，作为一种替代射频(RF)通信的车载应用。它具有高信噪比(SNR)的优点，由于视线传输而产生的干扰有限，并且在大多数现代车辆上双重使用现有硬件(LED灯和摄像头)。基于摄像头的接收器通常以比基于led的发射器调制的频率慢得多的频率采样光信号。为了解决由于采样频率低于奈奎斯特导致的混叠问题，提出了一系列的欠采样编码方法。这些提议的一个共同缺点是数据速率大约为每秒10比特，这对于大多数应用程序来说太低了。本文研究了使用非正交多址(NOMA)来利用高信噪比和提高欠采样光学相机通信(OCC)的数据速率。数据速率的显著提高可以以牺牲信噪比为代价来实现。当与其他方法(如波分复用、极化和MIMO阵列)结合使用时，进一步提高数据速率是可能的。

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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2018 Eleventh International Conference on Mobile Computing and Ubiquitous Network (ICMU)

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