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引用次数: 2
摘要
MRC (Maximum Ratio Combiner)是一种适用于水下通信的分集组合技术,当单个投影仪传输的数据被多个天线/节点接收时。检测后MRC (PD-MRC)对多个节点的初始检测输出执行加权求和。PD-MRC可以应用于纯噪声或纯isi信道,分别根据信噪比或每个节点的信道脉冲响应计算权重。本文证明了在存在噪声isi信道的情况下,权重可以由每个节点的检测器输出星座来计算。利用RADAR'07实验中收集的真实数据对PD-MRC的性能进行了评估。结果表明,与具有最佳MSE的节点相比,PD-MRC中使用两个节点总是获得增益。此外,当两个节点呈现相似的MSE时,PD-MRC增益更高。
A post-detection Maximum Ratio Combiner: Experimental assessment on high diversity underwater channels
Maximum Ratio Combiner (MRC) is a diversity combining technique applicable to underwater communications when the data transmitted by a single projector is received by more than one antenna/node. Post Detection MRC (PD-MRC) performs a weighted-sum over initial detected outputs of multiple nodes. PD-MRC can be applied to noise-only or ISI-only channels with the weights computed from the signal to noise ratio or from the channel impulse response of each node, respectively. In this paper it is shown that in the presence of noisy-ISI channels the weighs can be computed from the detector output constellation of each node. A performance of the PD-MRC is evaluated using real data collected during RADAR'07 experiment. Results show that a gain is always attained using two nodes in the PD-MRC as compared to the node having the best MSE. Moreover, the PD-MRC gain is higher when both nodes present a similar MSE.
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