多载波系统最小二乘终端性能实验设计:稀疏序数情况

2014 European Control Conference (ECC) Pub Date : 2014-07-24 DOI:10.1109/ECC.2014.6862346

D. Katselis, C. Rojas, H. Hjalmarsson

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摘要

本文重新研究了循环前缀正交频分复用(CP-OFDM)系统中信道识别任务的实验设计问题。到目前为止，已经导出了在输入能量约束下最小化信道均方误差(MSE)的最小二乘信道识别的最优输入序列。在这里，我们研究了LS信道估计器的相同问题，但是当设计考虑到感兴趣的最终性能指标，即符号估计MSE时。基于一些凸近似，我们验证了经典环境下LS信道估计的最优稀疏序数，即使用与信道长度相同数量导频的输入向量，在上述面向应用的环境中对于符号估计MSE接近最优。

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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Least squares end performance experiment design in multicarrier systems: The sparse preamble case

In this paper, the problem of experiment design for the task of channel identification in cyclic prefixed orthogonal frequency division multiplexing (CP-OFDM) systems is revisited. So far, the optimal input sequences for least squares (LS) channel identification with respect to minimizing the channel mean square error (MSE) under an input energy constraint have been derived. Here, we investigate the same problem for the LS channel estimator, but when the design takes into account an end performance metric of interest, namely, the symbol estimate MSE. Based on some convex approximations, we verify that optimal sparse preambles, i.e, input vectors employing as many pilots as the channel length, for LS channel estimation in its classical context are near optimal in the aforementioned application-oriented context for the symbol estimate MSE.

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2014 European Control Conference (ECC)

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