Pilot-symbol-assisted communications with noncausal and causal Wiener filters

2008 IEEE 9th Workshop on Signal Processing Advances in Wireless Communications Pub Date : 2008-07-06 DOI:10.1109/SPAWC.2008.4641616

Sami Akın, M. C. Gursoy

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引用次数: 4

Abstract

In this paper, pilot-assisted transmission over time-selective flat fading channels is studied. It is assumed that noncausal and causal Wiener filters are employed at the receiver to perform channel estimation with the aid of training symbols sent periodically by the transmitter. For both filters, the variances of estimate errors are obtained from the Doppler power spectrum of the channel. Subsequently, achievable rate expressions are provided. The training period, and data and training power allocations are jointly optimized by maximizing the achievable rate expressions. Numerical results are obtained by modeling the fading as a Gauss-Markov process. The achievable rates of causal and noncausal filtering approaches are compared. For the particular ranges of parameters considered in the paper, the performance loss incurred by using a causal filter as opposed to a noncausal filter is shown to be small. The impact of aliasing that occurs in the undersampled version of the channel Doppler spectrum due to fast fading is analyzed. Finally, energy-per-bit requirements are investigated in the presence of noncausal and causal Wiener filters.

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具有非因果和因果维纳滤波器的导视符号辅助通信

本文研究了在时间选择性平坦衰落信道上的导频辅助传输。假设在接收端使用非因果和因果维纳滤波器，借助发送端周期性发送的训练符号进行信道估计。对于两种滤波器，估计误差的方差由信道的多普勒功率谱得到。随后，给出了可实现的速率表达式。通过最大化可达到的速率表达式，对训练周期、数据和训练功率分配进行联合优化。将衰落建模为高斯-马尔可夫过程，得到了数值结果。比较了因果滤波和非因果滤波方法的可实现率。对于本文中考虑的特定参数范围，使用因果滤波器而不是非因果滤波器所造成的性能损失较小。分析了在信道多普勒频谱的欠采样版本中由于快速衰落而产生的混叠的影响。最后，研究了在非因果和因果维纳滤波器存在下的每比特能量需求。

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 IEEE 9th Workshop on Signal Processing Advances in Wireless Communications

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