红外辅助FSO/RF混合通信系统性能分析

Sandesh Sharma, Narendra Vishwakarma, R. Swaminathan
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引用次数: 3

摘要

与短链路距离上的射频(RF)通信相比,自由空间光学(FSO)通信被视为一种具有成本效益的方式,可以提供更高的带宽,更高的数据速率,更好的链路安全性,更高的抗干扰性等。尽管有这些优点,但FSO链路受到指向误差、大气湍流以及由于建筑物、树木、山脉等障碍物造成的信号损失的严重影响。本文提出了一种由FSO子系统和可靠射频子系统组成的混合通信系统模型,以提高系统的覆盖范围和可靠性。此外,FSO和RF子系统都由智能反射面(IRS)辅助。具体来说,我们通过在假设强度调制/直接检测(IM/DD)技术的情况下,推导出停机概率、平均误码率(BER)和遍行信道容量的近似封闭表达式,对irs辅助混合FSO/RF系统进行了性能分析。文中给出了数值结果,并进行了深入的讨论。数值结果表明,系统性能随着红外元件数量的增加而提高。此外,irs辅助的混合FSO/RF系统在遍历容量和平均误码率方面优于现有的FSO和混合FSO/RF系统。最后通过蒙特卡罗仿真验证了分析结果的正确性。
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Performance Analysis of IRS-Assisted Hybrid FSO/RF Communication System
Free space optics (FSO) communication is seen as a cost-effective way to provide higher bandwidth, higher data rates, better link security, higher immunity to interference, etc., compared to radio frequency (RF) communication over short link distances. Despite these advantages, FSO link is severely affected by pointing errors, atmospheric turbulence, and signal loss due to the obstructions caused by buildings, trees, mountains, etc. In this paper, we propose a hybrid communication system model consisting of a FSO subsystem backed by a reliable RF subsystem with the goal to improve the coverage and system reliability. In addition, both the FSO and RF subsystems are assisted by intelligent reflecting surfaces (IRS). Specifically, we carry out the performance analysis of the IRS-assisted hybrid FSO/RF system by deriving approximate closed-form expressions for outage probability, average bit error rate (BER), and ergodic channel capacity assuming intensity modulation/direct detection (IM/DD) technique. The numerical results are shown along with insightful discussions. It is observed from the numerical results that the system performance improves as the number of elements in IRS increases. Further, the IRS-assisted hybrid FSO/RF system performs better in terms of ergodic capacity and average BER than the existing FSO and hybrid FSO/RF systems. Finally, Monte-Carlo simulations are presented to verify the correctness of the analytical results.
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