基于100gbps ofdm的5G光纤前传28 GHz毫米波无线电系统

3区 物理与天体物理 Q1 Materials Science
J. Gadze, R. Akwafo, K. Agyekum, K. A. Opare
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引用次数: 2

摘要

由于移动数据流量的空前增长,第五代(5G)等新兴移动接入网络将需要巨大的带宽和移动前传架构作为提供未来高容量支持的基本解决方案。为了增加容量,在光纤模拟无线电(RoF)前传链路中利用毫米波(mm-waves)是实现更高带宽和高数据速率以满足5G移动通信的主要进步和解决方案。在本文中,我们论证了在28ghz下传输和接收100gbits /s数据速率链路的可行性。在两个检测系统的光纤长度从5公里到35公里范围内,比较了三种调制格式(16-PSK、16-QAM和64-QAM)的性能;连贯和直接的检测。此外,本文还通过在接收系统中实施数字信号处理(DSP)补偿方案来实现传输系统固有的传输损伤,以提高系统性能。以质量因子(QF)和误码率(BER)作为评价系统性能的指标。利用Optisystem 16对所提出的系统模型进行了设计和仿真。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A 100 Gbps OFDM-Based 28 GHz Millimeter-Wave Radio over Fiber Fronthaul System for 5G
Due to the unprecedented growth in mobile data traffic, emerging mobile access networks such as fifth-generation (5G) would require huge bandwidth and a mobile fronthaul architecture as an essential solution in providing a high capacity for support in the future. To increase capacity, utilizing millimeter waves (mm-waves) in an analog radio over fiber (RoF) fronthaul link is the major advancement and solution in achieving higher bandwidth and high data rate to cater for 5G mobile communication. In this paper, we demonstrate the feasibility of transmission and reception of a 100 Gbits/s data rate link at 28 GHz. The performance of three modulation formats (16-PSK, 16-QAM and 64-QAM) have been compared for an optical fiber length from 5 km up to 35 km for two detection systems; coherent and direct detection. Also, in this paper, the transmission impairments inherent to transmission systems are realized through the implementation of a digital signal processing (DSP) compensation scheme in the receiver system to enhance system performance. Quality factor (QF) and bit error rate (BER) are used as metrics to evaluate the system performance. The proposed system model is designed and simulated using Optisystem 16.
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来源期刊
Progress in Optics
Progress in Optics 物理-光学
CiteScore
4.50
自引率
0.00%
发文量
8
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