In this paper, we adapt to cell-free Massive MIMO (multiple-input multiple-output) the finite-blocklength framework introduced by \"Ostman et al. (2020) for the characterization of the packet error probability achievable with Massive MIMO, in the ultra-reliable low-latency communications (URLLC) regime. The framework considered in this paper encompasses a cell-free architecture with imperfect channel-state information, and arbitrary linear signal processing performed at a central-processing unit connected to the access points via fronthaul links. By means of numerical simulations, we show that, to achieve the high reliability requirements in URLLC, MMSE signal processing must be used. Comparisons are also made with both small-cell and Massive MIMO cellular networks. Both require a much larger number of antennas to achieve comparable performance to cell-free Massive MIMO.
翻译:在本文中,我们调整了“Ostman等人(2020年)”为确定在超可靠低纬度通信(URLLC)系统中与MIMO可实现的包包错误概率而推出的有限区块长度框架。本文中考虑的框架包括一个无细胞结构,其频道状态信息不完善,以及在通过前厅链接连接接入点的中央处理器中进行的任意线性信号处理。我们通过数字模拟,表明为实现URLLC的高可靠性要求,必须使用MSE信号处理。与小细胞和MIMO大规模移动网络进行比较,两者都需要更多天线才能达到无细胞MIMO的类似性能。
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