Masahiro Takigawa, Ryochi Kataoka, I. Kanno, Yoji Kishi
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引用次数: 0
摘要
本文提出了一种适用于移动模拟直放站的天线设计,该直放站在接入链路和回程链路之间采用频率-空间多路复用主转换(FSMDC)技术。我们提出的带 FSMDC 的中继方案仅使用模拟电路将接入链路中的宽带频率复用转换为回程链路的空间复用,在毫米波频谱中实现了低延迟和高容量。然而,毫米波中继器运行的典型场景是 LoS 环境,由于空间多路复用(即 LoS-MIMO)增益与通信距离有关,因此无法保证其增益。为了提高鲁棒性,我们采用成本函数优化了拟议的天线设计,该函数在任何通信距离下都能实现更好的 FSMDC 信道容量,并将其作为遗传算法中的适应度。仿真结果表明,它对 LoS MIMO 链路的通信距离具有鲁棒性。
Antenna Design for Robust Millimeter Wave LoS-MIMO Link in Mobile Analog Repeater Achieving Low Latency and High Capacity
This paper proposes an antenna design suitable for a mobile analog repeater with frequency-to-spatial multiplexing do-main conversion (FSMDC) among access and backhaul link. The relaying scheme with FSMDC, which we had proposed, converts wider band frequency multiplexing in access link into spatial multiplexing for the backhaul link only with analog circuits, and it achieves low latency and high capacity in millimeter wave spectrum. However, the typical scenario where the millimeter wave repeater is operated is LoS environment, and spatial multiplexing (i.e. LoS-MIMO) gain is not secured due to its dependency to the communication distance. For the robustness, the proposed antenna design is optimized by applying cost functions, that can achieve better channel capacity of FSMDC at any communication distance, as the fitness in genetic algorithm. The simulation results show its robustness to the communication distance of the LoS MIMO Links.
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