Time delay estimation in a spatially structured model using decoupled estimators for temporal and spatial parameters

2008 International ITG Workshop on Smart Antennas Pub Date : 2008-03-21 DOI:10.1109/WSA.2008.4475531

F. Antreich, J. Nossek, G. Seco-Granados, A. L. Swindlehurst

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引用次数: 4

Abstract

This paper deals with the joint estimation of time-delay and spatial (direction-of-arrival, DOA) parameters of several replicas of a known signal in an unknown spatially correlated field. Unstructured and structured models have been proposed for maximum likelihood (ML) estimators in the literature. The former suffers from a severe performance degradation in some scenarios, whereas the latter involves huge complexity. It is shown how the extended invariance principle (EXIP) can be applied to obtain estimates with the quality of those of the structured model, but with the complexity of the unstructured one. We present a method to improve the quality of the time-delay estimates obtained with an unstructured spatial model when an estimate of the DOAs is available. Exemplarily, simulation results for time-delay estimation for GPS (Global Positioning System) are included and confirm that our proposal approaches the Cramer-Rao lower bound (CRLB) of the structured model even when suboptimal DOA estimates obtained by ESPRIT are introduced.

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基于时空参数解耦估计的空间结构模型时延估计

本文研究了在未知空间相关场中已知信号的多个副本的时延和空间(到达方向，DOA)参数的联合估计。在文献中，非结构化和结构化模型已被提出用于最大似然(ML)估计。前者在某些情况下会导致严重的性能下降，而后者则涉及到巨大的复杂性。给出了如何应用扩展不变性原理(EXIP)来获得具有结构化模型质量的估计，但具有非结构化模型的复杂性的估计。我们提出了一种方法，当有可用的doa估计时，可以提高用非结构化空间模型得到的时延估计的质量。以GPS (Global Positioning System)时延估计的仿真结果为例，验证了本文方法在引入ESPRIT获得的次优DOA估计时，仍能接近结构化模型的Cramer-Rao下界(CRLB)。

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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2008 International ITG Workshop on Smart Antennas

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