低数据速率窄带无线传感器节点的容频偏解调

2017 11th International Conference on Signal Processing and Communication Systems (ICSPCS) Pub Date : 2017-12-13 DOI:10.1109/ICSPCS.2017.8270451

Siavash Safapourhajari, A. Kokkeler

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引用次数: 3

摘要

本文研究了低数据速率、窄带和低功耗通信节点的频偏问题。为了避免功耗高的精确频率产生，研究了容差解调和检测方案。介绍了一种基于短时DFT (ST-DFT)的BFSK检测方法，该方法将现有设计的误码率性能提高了近1dB。并与容频偏DDBPSK解调进行了误码率性能和复杂度的比较。此外，还考虑了在存在频偏的情况下捕获信号所需的宽滤波器的影响。讨论了不同偏移值和滤波器带宽的性能和复杂度之间的权衡。这两种方法都独立于频率偏移;然而，与DDBPSK相比，更宽的滤波器并不影响ST-DFT的误码率性能。这种鲁棒性是以增加计算负荷为代价获得的。

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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Frequency offset tolerant demodulation for low data rate and narrowband wireless sensor node

The issue of frequency offset in low data rate, narrowband and low power communication nodes is considered in this paper. To avoid power hungry precise frequency generation, offset tolerant demodulation and detection schemes are investigated. A Short-Time DFT (ST-DFT) based detection for BFSK is introduced which improves the BER performance of an existing design by almost 1dB. Its BER performance and complexity are also compared to frequency offset tolerant DDBPSK demodulation. Additionally, the effect of wider filter required to capture signal in presence of frequency offset is considered. The trade-off between performance and complexity for different offset values and filter bandwidths is discussed. Both methods work independent of frequency offset; however, it is shown that wider filters do not affect ST-DFT BER performance in contrast with DDBPSK. This robustness is obtained at the expense of increased computational load.

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2017 11th International Conference on Signal Processing and Communication Systems (ICSPCS)

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