基于峰度最大化的蜂窝无线通信中CCI/ISI减小的Turbo时空接收机

1st IEEE International Workshop on Computational Advances in Multi-Sensor Adaptive Processing, 2005. Pub Date : 2005-12-13 DOI:10.1109/CAMAP.2005.1574204

C. Peng, Chia-Chin Lin, Tsung-Hui Chang, Chong-Yung Chi

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引用次数: 0

摘要

本文将Chi和Chen提出的用于盲波束形成和均衡的快速峰度最大化算法(FKMA)应用于传统级联空时接收机(CSTR)的设计中，用于天线阵列蜂窝无线通信中盲同信道干扰和码间干扰(ISI)的抑制。然而，接收器的性能受到限制，因为感兴趣的isi失真信号的归一化峰度值(表示为gamma)很小。然后，进一步提出了一种盲涡轮空时接收机(TSTR)，利用FKMA循环方式进行时空处理来估计所需的数据序列。所提出的盲TSTR的性能对gamma值不敏感，因此优于盲CSTR。最后，仿真结果验证了盲TSTR算法的有效性

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Turbo space-time receiver by kurtosis maximization for CCI/ISI reduction in cellular wireless communications

In this paper, Chi and Chen's computationally efficient fast kurtosis maximization algorithm (FKMA) for blind beamforming and equalization is applied to the design of the conventional cascade space-time receiver (CSTR) for blind co-channel interference and inter-symbol interference (ISI) reduction in cellular wireless communications using antenna arrays. However, the receiver performance is limited as the normalized kurtosis magnitude of the ISI-distorted signal of interest, denoted as gamma, is small. Then a blind turbo space-time receiver (TSTR) is further proposed that applies spatial and temporal processing using FKMA in a cyclic fashion to estimate the desired data sequence. The performance of the proposed blind TSTR is insensitive to the value of gamma, and therefore is superior to that of the blind CSTR. Finally, some simulation results are provided to support the efficacy of the proposed blind TSTR

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来源期刊

1st IEEE International Workshop on Computational Advances in Multi-Sensor Adaptive Processing, 2005.

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