采用非正交脉冲形状的多载波系统的最大似然检测

2000 IEEE International Conference on Acoustics, Speech, and Signal Processing. Proceedings (Cat. No.00CH37100) Pub Date : 2000-06-05 DOI:10.1109/ICASSP.2000.860943

Wing-Kin Ma, P. Ching, K. M. Wong

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引用次数: 7

摘要

研究非正交多载波调制(MCM)的检测方案有两个原因。首先，非正交MCM在脉冲整形设计中提供了更高的自由度。其次，信道失真下正交MCM的检测问题可以看作是非正交MCM的检测问题。本文研究了非正交多载波系统的最大似然检测器(MLD)。在没有块间干扰的情况下，用Viterbi算法(VA)可以有效地实现MLD。与使用VA进行信道均衡相比，所提出的VA在“频域”中运行其存活度量。同时，我们还结合干扰消除方法，开发了非零块间干扰情况下的决策反馈MLD。仿真结果表明，mld具有良好的误码性能。

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Maximum likelihood detection for multicarrier systems employing non-orthogonal pulse shapes

Investigation of detection schemes for non-orthogonal multicarrier modulation (MCM) is motivated by two reasons. Firstly, non-orthogonal MCM offers a higher degree of freedom in pulse-shaping design. Secondly, the problem of detecting orthogonal MCM under channel distortion can be viewed as a problem of detecting non-orthogonal MCM. In this work, the maximum likelihood detector (MLD) is considered for non-orthogonal multicarrier systems. In the absence of inter-block interference, it is shown that the MLD can be efficiently achieved by a Viterbi algorithm (VA). In contrast to using the VA for channel equalization, the proposed VA has its survivor metrics running in the""frequency domain". Incorporating this VA with an interference-canceling approach, we also develop a decision feedback MLD for the case of non-zero inter-block interference. Superior bit error performance of the MLDs is demonstrated by simulations.

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2000 IEEE International Conference on Acoustics, Speech, and Signal Processing. Proceedings (Cat. No.00CH37100)

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