A beamforming method for a reactively steered adaptive array antenna with RF-MEMS device

Y. Irie, S. Hara, Y. Nakaya, T. Toda, Y. Oishi
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引用次数: 7

Abstract

An adaptive array antenna is an antenna that controls its own antenna pattern by means of feedback or feedforward control. Paying our attention to its application for terminals in WLAN (wireless local area networks), analog adaptive array antennas, such as RESAA (reactively steered adaptive array) antenna and phased array antenna, are advantageous and attractive in terms of cost and power consumption. Especially, with recent remarkable advance in MEMS (microelectromechanical system) technology, RF (radiofrequency)-MEMS implemented power- and bandwidth-efficient analog devices, such as inductors, capacitors and varactors, have been available. Therefore, the analog adaptive array antenna with RF-MEMS device at the wireless terminal side is promising in the future WLAN, however, a special beamforming method is required taking into consideration its response and characteristic. This paper proposes a new beamforming method taking into consideration the mechanical structure of the beam control device. Here, we assume a RESAA as an example of analog array antenna and the OFDM (orthogonal frequency division multiplexing)-based IEEE 802.11a standard as a system model.
一种基于RF-MEMS器件的反应导向自适应阵列天线波束形成方法
自适应阵列天线是一种通过反馈或前馈控制来控制自身天线方向图的天线。模拟自适应阵列天线,如RESAA(被动转向自适应阵列)天线和相控阵天线,在成本和功耗方面具有优势和吸引力,我们关注其在WLAN(无线局域网)终端中的应用。特别是,随着最近MEMS(微机电系统)技术的显著进步,RF(射频)-MEMS实现的功率和带宽效率高的模拟器件,如电感器,电容器和变容管,已经可用。因此,在无线终端侧采用RF-MEMS器件的模拟自适应阵列天线是未来无线局域网的发展方向,但考虑到其响应和特性,需要一种特殊的波束形成方法。考虑到波束控制装置的机械结构,提出了一种新的波束形成方法。在这里,我们假设一个RESAA作为模拟阵列天线的例子和基于OFDM(正交频分复用)的IEEE 802.11a标准作为系统模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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