A new approach is presented to the problem of compensating the beam squint effect arising in wideband terahertz (THz) hybrid massive multiple-input multiple-output (MIMO) systems, based on the joint optimization of the phase shifter (PS) and true-time delay (TTD) values under per-TTD device time delay constraints. Unlike the prior approaches, the new approach does not require the unbounded time delay assumption; the range of time delay values that a TTD device can produce is strictly limited in our approach. Instead of focusing on the design of TTD values, we jointly optimize both the TTD and PS values to effectively cope with the practical time delay constraints. Simulation results that illustrate the performance benefits of the new method for the beam squint compensation are presented. Through simulations and analysis, we show that our approach is a generalization of the prior TTD-based precoding approaches.
翻译:提出了一个新办法,用以补偿宽频梯形多输出(Thz)混合型多投入多产出(MIMO)系统产生的波束斜形效应,其依据是:根据每转转机(PS)和实时延迟(TTD)值,在每转转转机(TTD)装置的时间延迟限制下,联合优化分流器和实时延迟(TTD)值;与先前的办法不同,新办法并不要求无限制的时间延迟假设;在办法中,TTD装置能够产生的时间延迟值的范围受到严格限制。我们共同优化TTD和PS的数值,而不是侧重于TTD值的设计,以有效应付实际的时间拖延限制。我们模拟了显示新的波束形宽补偿方法的性能效益的结果。我们通过模拟和分析,表明我们的做法是对以前基于TTD的预编码方法的概括化。