On capacity of two-way full-duplex and one-way MIMO with the same number of antennas

2014 IEEE/CIC International Conference on Communications in China (ICCC) Pub Date : 2014-10-01 DOI:10.1109/ICCCHINA.2014.7008344

Bin Zhou, Kai Yu, Z. Bu, Huajun Wang

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Abstract

Two-way co-channel communication enabled by recent full-duplex (FD) transceiver designs offers the potential to double spectral efficiency. However, currently most of FD radios require additional antennas to facilitate the multi-stage self-interference cancellation (SIC). As increasing antenna number of transceiver certainly leads to higher theoretical link capacities, the real gain of FD systems over its half-duplex MIMO counterparts should be re-evaluated under a same antenna-number assumption. In this paper, we derive generic close-form expressions for two-way FD link capacity based on mainstream SIC approaches, analyze the impacts of Tx-EVM and transmitter channel information (CSIT) on FD link capacity, and thus illustrate the necessity of enabling close-loop FD to fully exploit spatial diversity. Numerical results show that, although the capacity gain of FD over MIMO is jointly determined by Tx power, SIC gain and Tx-EVM, the awareness of CSIT improves FD performance much more significantly than it does for MIMO. Moreover, for FD radios with Tx-noise, the SIC gain in RF-domain is the most important in determining the capacity of two-way FD communications.

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天线数量相同的双向全双工和单向MIMO的容量

最近的全双工(FD)收发器设计实现了双向共信道通信，提供了双倍频谱效率的潜力。然而，目前大多数FD无线电需要额外的天线来促进多级自干扰消除(SIC)。由于收发器天线数的增加必然会导致更高的理论链路容量，因此在相同天线数的假设下，FD系统相对于半双工MIMO系统的实际增益应该重新评估。本文基于主流SIC方法推导了双向FD链路容量的通用封闭表达式，分析了Tx-EVM和发射机信道信息(CSIT)对FD链路容量的影响，从而说明了启用闭环FD以充分利用空间多样性的必要性。数值结果表明，尽管FD在MIMO上的容量增益是由Tx功率、SIC增益和Tx- evm共同决定的，但CSIT感知对FD性能的改善要比MIMO显著得多。此外，对于具有tx噪声的FD无线电，射频域的SIC增益是决定双向FD通信容量的最重要因素。

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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2014 IEEE/CIC International Conference on Communications in China (ICCC)

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