在游牧终端采用仅发射的AUX天线提高上行吞吐量:容量分析

Ashok Kumar, S. R. Pillai
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摘要

采用仅发射的AUX天线是一种相对便宜的方式,可以增强轻型无人机、无人野外探险节点、赛车电路等的通信吞吐量,在这些地方,从游牧终端到基站(BS)的数据速率需求可能会间歇性地增加。上行链路中的不对称负载需求通常要求在游牧终端或终端上增加基础设施。通过省略机载多个接收链(以及过采样、同步和外差的要求),采用市售的仅发射的AUX天线,以及拥有自己专用接收链的主天线子系统,可以大大节省能源、人体工程学和成本。AUX接收链的缺失带来了新的设计挑战,例如,在UE中估计全信道变得很麻烦,特别是当BS有大量天线时。另一方面,对于许多散射环境,即使信道状态信息(CSI)仅在接收机处可用,也可以实现高信噪比下的MIMO容量,有效地实现全自由度。这促使我们分析接收BS具有完整CSI的情况,然而UE发射机仅从其主天线系统知道CSI。假定所有终端都知道信道统计信息。我们研究了由此产生的部分CSI MIMO系统的上行遍历香农容量,并提出了在所有感兴趣的信噪比下几乎最优的传输方案。我们的研究结果表明,即使在中等信噪比的情况下,即使使用单个额外的AUX,也可以为具有两个以上接收天线的接收器提供60 -70%的容量改进。
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Uplink Throughput Enhancement by Employing Transmit-only AUX Antennas at Nomadic Terminals: A Capacity Analysis
Employing transmit only AUX antennas is a rela-tively cheap way of enhancing the communication throughput of lightweight UAVs, nodes in unmanned field expeditions, racing circuits etc, where increased data-rate demands from the nomadic terminals to the base station (BS) may happen intermittently. Asymmetric load demands in the uplink often call for augmented infrastructure at the nomadic terminals or UEs. By omitting multiple receive chains onboard (along with the requirements of oversampling, synchronization and heterodyning), considerable savings in energy, ergonomics and cost is afforded by employing commercially available transmit only AUX antennas, along with the MAIN antenna subsystem possessing its own dedicated receive chain. The absence of AUX receive chains brings new design chal-lenges, for example, estimating the full channel becomes trouble-some at the UE, particularly when the BS has a large number of antennas. On the other hand, the MIMO capacity at high SNRs, effectively the full degrees of freedom, can be achieved even when the channel state information (CSI) is available only at the receiver, for many scattering environments. This motivates us to analyze the situation where the receiving BS has full CSI, however the UE transmitter only knows the CSI from its main antenna system. Channel statistics are assumed to be known at all the terminals. We investigate the uplink ergodic Shannon capacity of the resulting partial CSI MIMO system, and propose transmission schemes which are almost optimal, at all SNRs of interest. Our results show that even using a single additional AUX can provide 60 -70% capacity improvement for a receiver with more than two receive antennas, even at moderate SNRs.
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