A low complexity fine timing offset and channel estimation algorithm for cooperative diversity OFDM system

M. I. Cheema, S. Khan
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引用次数: 1

Abstract

In this paper, two estimators are proposed for calculating fine timing and channel impulse response (CIR) of a CD-OFDM based communication system. The proposed low complexity algorithms are designed to operate with asynchronous nodes having independent timing and carrier frequency offsets. These algorithms fully exploit the specially designed structure of time domain preamble used for cooperative communications. For the sake of reducing complexity, both estimators use the correlation results of the same preamble. Moreover, CIR is estimated in time domain thus making multiple FFT operations redundant. Further, fine timing estimator is based on a simple but robust idea of first channel tap identification in cooperative communications scenario. The performance of these algorithms is evaluated in rayleigh fading environment using monte carlo simulations and performance is found better than other comparable algorithms.
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一种用于合作分集OFDM系统的低复杂度精细定时偏移和信道估计算法
本文提出了两种用于计算CD-OFDM通信系统精细时序和信道脉冲响应(CIR)的估计器。所提出的低复杂度算法设计用于具有独立定时和载波频率偏移的异步节点。这些算法充分利用了专门设计的用于协同通信的时域前导结构。为了降低复杂度,两个估计器都使用相同前导的相关结果。此外,CIR是在时域估计的,从而使多个FFT操作冗余。此外,在协作通信场景下,精细时序估计基于一种简单而稳健的第一信道分接识别思想。在瑞利衰落环境下,通过蒙特卡罗仿真对这些算法的性能进行了评价,结果表明这些算法的性能优于其他同类算法。
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