Performance comparison of Duobinary, AMI, CNRZ and CSRZ for next generation FSO communication system

Sidra Ejaz, Sawaiba Shafqat, Kainat Qureshi, Farhan Qamar, Romana Shahzadi, Mudassar Ali
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Abstract

FSO, known as free-space optics, is a competent technology in wireless communication for providing license free spectrum, bandwidth, and high efficiency in next-generation networks. In this paper, an experimental approach is used to deploy FSO channel communication using different intensity modulation schemes such as CSRZ, chirped NRZ, duobinary and AMI. The performance of FSO link is adversely affected by weather conditions like haze, rain, and fog. By using different techniques, it is possible to overcome the effect of atmospheric turbulences. Therefore, four different modulation formats are compared and analyzed by testing different parameters like laser power, range, attenuation, and data rates. Quality of received signal is judged by taking Q-factor, bit error rate (BER), and eye-diagrams. An operating wavelength of 850 nm has been used to simulate the system designs. This paper aims to conclude the best intensity modulation scheme for its use in next generation networks such as 5G where direct deployment of optical fiber is not possible or feasible.
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用于下一代 FSO 通信系统的二进制、AMI、CNRZ 和 CSRZ 性能比较
FSO 被称为自由空间光学,是无线通信领域的一项有效技术,可为下一代网络提供免许可频谱、带宽和高效率。本文采用实验方法,利用不同的强度调制方案(如 CSRZ、啁啾 NRZ、二进制和 AMI)部署 FSO 信道通信。FSO 链路的性能会受到雾霾、雨和雾等天气条件的不利影响。通过使用不同的技术,可以克服大气湍流的影响。因此,通过测试激光功率、范围、衰减和数据速率等不同参数,对四种不同的调制格式进行了比较和分析。接收信号的质量通过 Q 因子、误码率和眼图来判断。模拟系统设计使用的工作波长为 850 nm。本文旨在总结出最佳强度调制方案,以用于下一代网络(如 5G),在这些网络中,直接部署光纤是不可能或不可行的。
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