Multipacket reception performance in the presence of in-band full duplex communication

T. Bento, Luís Bernardo, R. Dinis, Rodolfo Oliveira, Paulo Pinto, Pedro Amaral
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引用次数: 2

Abstract

In-Band Full-Duplex (FDX) and MultiPacket Reception (MPR) are two transmission technologies that can be used together to improve the overall network capacity. However, the FDX Self-Interference Cancellation (SIC) techniques only filter part of the transmitted signal from the reception. This paper analyses how the FDX SIC residual noise influences the performance of MPR systems. It considers power diversity MPR, based on interference cancellation (IC) techniques, and time/frequency spreading MPR, such as code division multiple access or network diversity multiple access. The FDX coverage range is related with the FDX SIC attenuation. It is shown that the aggregate throughput can be increased by a factor P + 1 for P MTs when IC-based MPR is used for short range communications, but broader ranges require other less efficient MPR approaches. It is also shown that half-duplex can coexist with the FDX communications, providing an enlarged coverage outside the FDX communication range.
带内全双工通信时的多包接收性能
带内全双工(FDX)和多包接收(MPR)是两种可以共同使用的传输技术,可以提高整个网络的容量。然而,FDX自干扰消除(SIC)技术只能从接收中过滤部分发射信号。本文分析了FDX SIC残余噪声对MPR系统性能的影响。考虑了基于干扰消除(IC)技术的功率分集MPR和码分多址或网络分集多址等时频扩频MPR。FDX覆盖范围与FDX SIC衰减有关。结果表明,当基于ic的MPR用于短距离通信时,P mt的总吞吐量可以增加P + 1,但更广泛的范围需要其他效率较低的MPR方法。半双工可以与FDX通信共存,在FDX通信范围之外提供更大的覆盖范围。
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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