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引用次数: 12
摘要
在这篇由两部分组成的论文的第一部分(T.Q.S. Quek et al., 2005)中,我们通过开发基于采样展开方法的分析框架,提供了各种传输参考(TR)方案的未编码误码概率(BEP)分析。本文考虑了窄带干扰(NBI)的影响,推导了带自相关接收机(AcR)的TR和差分TR (DTR)信号的非编码BEP表达式。为简单起见,我们的NBI被建模为具有瑞利分布振幅和均匀随机相位的单音干扰。我们量化了NBI和信道功率色散分布(PDP)对AcR最佳积分间隔的影响。与无nbi情况不同,AcR的最佳积分间隔不一定与延迟扩展接近,而是取决于信干扰比(SIR)、信噪比(SNR)和信道PDP。此外,我们的结果还允许我们比较TR和DTR信号的NBI敏感性。
In Part I (T.Q.S. Quek et al., 2005) of this two-part paper, we provide uncoded bit error probability (BEP) analysis of various transmitted-reference (TR) schemes by developing an analytical framework based on the sampling expansion approach. In this paper, the effect of narrowband interference (NBI) is taken into account to derive uncoded BEP expressions of TR and differential TR (DTR) signaling with an autocorrelation receiver (AcR). For simplicity, our NBI is modeled as a single tone interferer with Rayleigh distributed amplitude and a uniformly distributed random phase. We quantify the effect of NBI and channel power dispersion profile (PDP) on the optimum integration interval of AcR. Unlike the NBI-free situation, the optimum integration interval of AcR is not necessarily close to the delay spread, and depends on the signal-to-interference ratio (SIR), the signal-to-noise ratio (SNR) and the channel PDP. Furthermore, our results also allow us to compare the NBI sensitivity of TR and DTR signaling.
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