HCM-based indoor optical wireless communications: Timing and data recovery

IF 2.3 4区 计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Iet Optoelectronics Pub Date : 2023-10-08 DOI:10.1049/ote2.12105
Masoud Johar, Alireza Salehiyan, Mohammad Javad Emadi, S. Alireza Nezamalhosseini
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Abstract

Light-fidelity (Li-Fi) is a promising solution to provide high-rate, secure, and green communications to be used in the next generation of wireless networks. Since visible or infrared (IR) light-emitting diodes (LEDs) are used as the optical source and have a non-linear transfer function, the transmitted modulated signal can be distorted if the signal has a high peak-to-average power ratio (PAPR). Recently, a new modulation scheme called Hadamard-coded modulation (HCM) is proposed which has no PAPR concern since it produces symbols with discrete levels. In the HCM technique, the symbol levels can be created using multiple LEDs. Therefore, each LED operates in its linear region and just switches on or off. A low-complexity transceiver architecture for the HCM-based communication links is proposed and a complete synchronisation procedure based on the spread-spectrum techniques is presented. Finally, the bit error rate of the system is evaluated by Monte Carlo simulations, and effects of system parameters such as preamble length, fall and rise time of optical devices, and timing jitter on the bit error rate of the link are discussed.

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基于HCM的室内光无线通信:定时和数据恢复
光保真(Li-Fi)是一种很有前途的解决方案,可以在下一代无线网络中提供高速率、安全和绿色的通信。由于可见光或红外(IR)发光二极管(LED)用作光源并且具有非线性传递函数,因此如果信号具有高的峰均功率比(PAPR),则传输的调制信号可能失真。最近,提出了一种称为阿达玛编码调制(HCM)的新调制方案,该方案由于产生具有离散电平的符号而不考虑PAPR。在HCM技术中,可以使用多个LED来创建符号级别。因此,每个LED都在其线性区域内工作,并且只打开或关闭。提出了一种用于基于HCM的通信链路的低复杂度收发器架构,并提出了一个基于扩频技术的完整同步过程。最后,通过蒙特卡罗模拟评估了系统的误码率,并讨论了系统参数如前导码长度、光学器件的下降和上升时间以及定时抖动对链路误码率的影响。
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来源期刊
Iet Optoelectronics
Iet Optoelectronics 工程技术-电信学
CiteScore
4.50
自引率
0.00%
发文量
26
审稿时长
6 months
期刊介绍: IET Optoelectronics publishes state of the art research papers in the field of optoelectronics and photonics. The topics that are covered by the journal include optical and optoelectronic materials, nanophotonics, metamaterials and photonic crystals, light sources (e.g. LEDs, lasers and devices for lighting), optical modulation and multiplexing, optical fibres, cables and connectors, optical amplifiers, photodetectors and optical receivers, photonic integrated circuits, photonic systems, optical signal processing and holography and displays. Most of the papers published describe original research from universities and industrial and government laboratories. However correspondence suggesting review papers and tutorials is welcomed, as are suggestions for special issues. IET Optoelectronics covers but is not limited to the following topics: Optical and optoelectronic materials Light sources, including LEDs, lasers and devices for lighting Optical modulation and multiplexing Optical fibres, cables and connectors Optical amplifiers Photodetectors and optical receivers Photonic integrated circuits Nanophotonics and photonic crystals Optical signal processing Holography Displays
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