On equalization for OFDM-dedicated short range communication (DSRC) modem

2000 IEEE International Conference on Personal Wireless Communications. Conference Proceedings (Cat. No.00TH8488) Pub Date : 2000-12-17 DOI:10.1109/ICPWC.2000.905809

J.B. Reddy, L. Deneire, L. Van der Perre, B. Gyselinckx, M. Engels

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引用次数: 5

Abstract

Dedicated short range communication (DSRC) applications need flexible and robust air interface technology to support high data rate services. OFDM is a good candidate for DSRC applications in harsh mobile environments, with time and frequency-selective channels. This doubly spread channel renders channel estimation, needed for the equalizer when using coherent detection, a challenging problem. We focus on the the channel estimation methods for coherent detection of QAM signals. Two adaptive algorithms, NLMS and RLS are considered for the rotating pilot (RP) scheme and the repeated reference (RR) scheme to track the channel variations. Further maximum likelihood (ML) deterministic channel estimation is applied jointly with the above methods to get optimal channel estimation. The combination of NLMS and ML is best suited for an OFDM-DSRC modem with rather low complexity and a performance loss of only 1 dB with respect to a perfect channel knowledge situation.

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ofdm专用短距离通信(DSRC)调制解调器均衡化研究

专用短程通信(DSRC)应用需要灵活和强大的空中接口技术来支持高数据速率业务。在恶劣的移动环境中，具有时间和频率选择信道的OFDM是DSRC应用的一个很好的候选者。这种双扩频信道使得使用相干检测时均衡器所需的信道估计成为一个具有挑战性的问题。重点研究了QAM信号相干检测的信道估计方法。针对旋转导频(RP)方案和重复参考(RR)方案，分别考虑了NLMS和RLS两种自适应算法来跟踪信道变化。进一步将极大似然确定性信道估计与上述方法联合应用，得到最优信道估计。NLMS和ML的组合最适合于OFDM-DSRC调制解调器，相对于完美的信道知识情况，其复杂性相当低，性能损失仅为1 dB。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2000 IEEE International Conference on Personal Wireless Communications. Conference Proceedings (Cat. No.00TH8488)

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