Exploiting Beam-Split in IRS-aided Systems via OFDMA

P. Siddhartha, L. Yashvanth, Chandra R. Murthy
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Abstract

In wideband systems operating at mmWave frequencies, intelligent reflecting surfaces (IRSs) equipped with many passive elements can compensate for channel propagation losses. Then, a phenomenon known as the beam-split (B-SP) occurs in which the phase shifters at the IRS elements fail to beamform at a desired user equipment (UE) over the total allotted bandwidth (BW). Although B-SP is usually seen as an impairment, in this paper, we take an optimistic view and exploit the B-SP effect to enhance the system performance via an orthogonal frequency division multiple access (OFDMA). We argue that due to the B-SP, when an IRS is tuned to beamform at a particular angle on one frequency, it also forms beams in different directions on other frequencies. Then, by opportunistically scheduling different UEs on different subcarriers (SCs), we show that, almost surely, the optimal array gain that scales quadratically in the number of IRS elements can be achieved on all SCs in the system. We derive the achievable throughput of the proposed scheme and deduce that the system also enjoys additional multi-user diversity benefits on top of the optimal beamforming gain over the full BW. Finally, we verify our findings via numerical simulations.
通过 OFDMA 在 IRS 辅助系统中利用波束分裂
在毫米波频率的宽带系统中,配备许多无源元件的智能反射面(IRS)可以补偿信道传播损耗。在这种情况下,IRS元件上的移相器无法在分配的总带宽(BW)上对所需的用户设备(UE)进行波束赋形,这种现象被称为波束分裂(B-SP)。虽然 B-SP 通常被视为一种损害,但在本文中,我们从乐观的角度出发,利用 B-SP 效应,通过正交频分多址(OFDMA)提高系统性能。我们认为,由于 B-SP 的存在,当 IRS 被调整为在一个频率上以特定角度形成波束时,它也会在其他频率上形成不同方向的波束。然后,通过在不同的子载波(SC)上对不同的 UE 进行机会性调度,我们证明,几乎可以肯定的是,在系统中的所有 SC 上都能实现与 IRS 单元数量成二次方比例的最佳阵列增益。我们推导出了所提方案的可实现吞吐量,并推导出该系统在全 BW 范围内的最佳波束成形增益之外,还能享受额外的多用户分集优势。最后,我们通过数值模拟验证了我们的发现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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