基于似然函数的闭环载波相位同步技术

Proceedings of ICC/SUPERCOMM'94 - 1994 International Conference on Communications Pub Date : 1994-05-01 DOI:10.1109/ICC.1994.368944

H. Tsou, M. Simon, Sami Hinedi

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引用次数: 0

摘要

在MAP载波相位估计理论的激励下，作者开发了许多由最大似然函数(ML)和平均似然函数(AL)适当导出的闭环结构。这些结构中的一些减少到以前已知的闭环载波相位同步器，而其他的似乎是新的。特别令人感兴趣的是一种机器学习结构，当适当优化时，它比其他机器学习和人工智能结构提供了更好的均方相位误差性能。这种改进在低符号信噪比下是最大的，因此在涉及低速率编码和天线阵列组合的应用中非常重要，例如NASA/JPL的伽利略木星任务。本文所提出的结构并不是从开环MAP估计理论推导出闭环相位同步器的全部方法。相反，给出它们主要是为了表明各种不同的闭环方案，这些方案可以简单地由似然函数和对数似然函数构造。

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Closed loop carrier phase synchronization techniques motivated by likelihood functions

Motivated by the theory of MAP carrier phase estimation, the authors have developed a number of closed loop structures suitably derived from maximum-likelihood (ML) and average-likelihood (AL) functions. Several of these structures reduce to previously known closed loop carrier phase synchronizers while others appear to be new. Of particular interest is one of the ML structures which, when properly optimized, gives improved mean-square phase error performance over the other ML and AL structures. The improvement is largest at low symbol SNR and is thus quite significant in applications that involve a combination of low rate coding and antenna arraying such as the NASA/JPL Galileo mission to Jupiter. The structures proposed in the paper are not exhaustive of the ways that closed loop phase synchronizers can be derived from open loop MAP estimation theory. Rather they are given primarily to indicate the variety of different closed loop schemes that can be constructed simply from likelihood and log-likelihood functions.<>

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Proceedings of ICC/SUPERCOMM'94 - 1994 International Conference on Communications

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