二维DFT波束空间ESPRIT的实现与性能分析

Conference Record of The Twenty-Ninth Asilomar Conference on Signals, Systems and Computers Pub Date : 1995-10-30 DOI:10.1109/ACSSC.1995.540645

C. P. Mathews, M. Haardt, M. Zoltowski

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引用次数: 7

摘要

二维DFT波束空间ESPRIT是一种封闭形式算法，可自动提供入射到均匀矩形天线阵列上的多个源的成对方位角和仰角估计。本文展示了如何通过加入零导向来改善二维DFT波束空间ESPRIT的性能。零导向提供了过滤掉相邻扇区中的源(干扰)的方法，同时在给定的空间扇区中搜索源。仿真结果证明了零转向所获得的性能改进。本文还分析了二维DFT波束空间ESPRIT的统计性能。得到了二维DFT波束空间ESPRIT DOA估计方差的渐近表达式，并通过计算机仿真进行了验证。性能分析结果也适用于二维单一ESPRIT，即二维DFT波束空间ESPRIT的单元空间对应物。

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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Implementation and performance analysis of 2D DFT beamspace ESPRIT

The 2D DFT beamspace ESPRIT is a closed form algorithm that provides automatically paired azimuth and elevation angle estimates of multiple sources incident on a uniform rectangular array of antennas. This paper shows how the performance of 2D DFT beamspace ESPRIT can be improved via incorporation of null-steering. Null-steering provides the means for filtering out sources (interferers) in adjacent sectors, while searching for sources in a given spatial sector. Simulation results that document the performance improvement gained by null-steering are presented. The paper also analyzes the statistical performance of 2D DFT beamspace ESPRIT. Asymptotic expressions for the variances of the 2D DFT beamspace ESPRIT DOA estimates are obtained, and verified by computer simulations. The performance analysis results also apply to 2D unitary ESPRIT, the element space counterpart of 2D DFT beamspace ESPRIT.

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Conference Record of The Twenty-Ninth Asilomar Conference on Signals, Systems and Computers

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