基于CAZAC测深参考序列的SC-FDMA系统多用户信道估计及matlab验证

2012 IEEE 16th International Symposium on Consumer Electronics Pub Date : 2012-06-04 DOI:10.1109/ISCE.2012.6241750

Jeng-Kuang Hwang, Yu-Tai Tsai, Jeng-Da Li

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引用次数: 5

摘要

针对4G单载波频分多址(SC-FDMA)上行系统，利用Zadoff-Chu测深参考序列(SRS)的CAZAC(恒幅零自相关)特性实现多用户信道估计。首先，让每个用户使用适当的基本SRS的圆移，给出MU-SC-FDMA信号模型。然后推导出一种高效的MU信道估计(MUCE)算法，该算法只需要一对FFT/IFFT运算即可获得所有用户的信道脉冲响应。此外，计算机仿真结果表明，MUCE对误码性能的影响很小。最后，我们搭建了一个仪器在matlab中的软件定义无线电(IM-SDR)平台来验证MUCE算法的可行性。双用户实验的实际测量结果表明，MUCE可以同时准确地估计射频信道模拟器指定的双用户信道响应。

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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Multiuser channel estimation for SC-FDMA system with CAZAC sounding reference sequence and Instruments-in-MATLAB verification

For the 4G Single-Carrier Frequency-Division-Multiple-Access (SC-FDMA) uplink system, the CAZAC (constant amplitude zero autocorrelation) property of Zadoff-Chu sounding reference sequence (SRS) is exploited to accomplish multiuser (MU) channel estimation in this paper. First, letting each user use an appropriate circular shift of the base SRS, the MU-SC-FDMA signal model is given. Then we derive an efficient MU channel estimation (MUCE) algorithm, which needs only a pair of FFT/IFFT operation to obtain all the users' channel impulse responses. Moreover, the computer simulation results show that only a small degradation in bit error performance is incurred by MUCE. Finally, we set up a Instruments-in-MATLAB Software-Defined Radio (IM-SDR) platform to verify the feasibility of the MUCE algorithm. Real-world measurement results of a two-user experiment show that the MUCE can simultaneously and accurately estimate the two-user channel responses specified by the RF channel emulator.

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2012 IEEE 16th International Symposium on Consumer Electronics

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