Radio over Fiber Architecture Very High-Speed Wireless Communications in the Unlicensed 60 GHz Band

Raoule J. O. Agoua, A. Kamagate, A. Konaté, M. Menif, O. Asseu
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Abstract

Larger wireless access networks are required to meet the growing demand for mobile traffic and multimedia services. The use of RoF (Radio over Fiber) technology in combination with millimeter waves is a potential response to the requirements of broadband applications and high capacity networks. In this paper, we proposed a RoF architecture able to provide very high-speed wireless access points up to Gbps considering an indoor and outdoor environment conform to IEEE 802.11ad and IEEE 802.15.3c standard. Optical transmission and radio coverage have been studied by considering the uplink and downlink. System performance has been evaluated in the relation to the Error Vector Magnitude (EVM) for various modulation formats (BPSK, QPSK and 16QAM). Results showed that millimeter wave signals are successfully delivered over a 50 km fiber link and a wireless channel up to 32 m. Data throughput up to 5.28 Gbps has been reached. The proposed architecture can extend the range of applications for wireless communications in association with the unlicensed 60 GHz band with the advantages of better capacity, a wider coverage area and a reduction in the investment cost.
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光纤无线电体系结构在无证60千兆赫频带的超高速无线通信
为了满足日益增长的移动通信和多媒体业务需求,需要更大的无线接入网。RoF(光纤无线通信)技术与毫米波的结合使用是对宽带应用和高容量网络需求的潜在响应。在本文中,考虑到室内和室外环境符合IEEE 802.11ad和IEEE 802.15.3c标准,我们提出了一种能够提供高达Gbps的超高速无线接入点的RoF架构。从上行链路和下行链路的角度对光传输和无线电覆盖进行了研究。在各种调制格式(BPSK, QPSK和16QAM)下,系统性能与误差矢量幅度(EVM)的关系进行了评估。结果表明,毫米波信号在50公里的光纤链路和32米的无线信道上成功传递。数据吞吐量达到5.28 Gbps。该架构具有容量更大、覆盖范围更广、投资成本更低等优点,可扩展无线通信与免授权60ghz频段相关的应用范围。
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