We analyze the high-SNR regime of the MxK Network MISO channel in which each transmitter has access to a different channel estimate, possibly with different precision. It has been recently shown that, for some regimes, this setting attains the same Degrees-of-Freedom as the ideal centralized setting with perfect CSI sharing, in which all the transmitters are endowed with the best estimate available at any transmitter. This result is restricted by the limitations of the DoF metric, as it only provides information about the slope of growth of the capacity as a function of the SNR, without any insight about the possible performance at a given SNR. To overcome this limitation, we analyze the affine approximation of the rate on the high-SNR regime for this decentralized Network MISO setting for the antenna configurations in which it achieves the DoF of the centralized setting. We show that, for a regime of antenna configurations, it is possible to asymptotically attain the same achievable rate as in the ideal centralized scenario. Consequently, it is possible to achieve the beamforming gain of the ideal perfect-CSI-sharing setting even if only a subset of transmitters is endowed with precise CSI, which can be exploited in scenarios such as distributed massive MIMO where the number of transmit antennas is much bigger than the number of served users. This outcome is a consequence of the synergistic compromise between CSI precision at the transmitters and consistency between the locally-computed precoders, which is an inherent trade-off of decentralized settings that does not exist in a centralized CSI configuration. We propose a precoding scheme achieving the previous result, which is built on an uneven structure in which some transmitters reduce the precision of their own precoding for the sake of using transmission parameters that can be more easily predicted by the other transmitters.
翻译:我们分析了MxK 网络 MISO 频道的高SNR 系统,每个发报机在其中可以访问不同的频道估计,可能具有不同的精确度。最近我们发现,对于一些制度来说,这种设定达到与理想的 CSI 共享的理想中央设置相同的自由度,即所有发报机都拥有任何发报机所能提供的最佳估计值。这一结果受到DoF 系统的局限性的限制,因为它只提供作为SNR函数的能力增长速度的信息,而没有洞察到给定的国家情报局可能的业绩。为克服这一限制,我们分析了高SNR 系统对高SNR 系统比率的近似度,而这种高端网络 MISO 设置是理想的中央设置。我们表明,对于天线配置的系统来说,有可能在先期之前达到与理想的中央化设想值相同的可实现率率。因此,我们有可能实现理想的 CSI 共享理想的完美配置值的接近率。即使这种分散式的网络 MISO 设置的精确度的精确度, 也只能用来在C 发送机的中央结构上建立一个精确的C 。