窄带物联网中下行同步技术研究
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摘要
基于窄带物联网系统研究下行同步技术,实现低信噪比和高频偏环境下的同步技术方案,具有较高的实际研究意义。为此,重点研究基于窄带物联网的智能电网下行同步技术的实现方案。并针对低信噪比和高频偏引起的窄带物联网下行同步性能下降问题,提出使用差分相关和PMF+FFT算法的改进方案,实现PSS定时监测过程和频偏检测过程。通过搭建对应的下行同步信道链路级仿真平台,与原有的分段相关算法进行比较分析。结果表明,该方案能显著地改善定时检测精度,并有效消除频偏的影响,同时分析了各模块性能提升状况。
The downlink synchronization technology based on narrow-band IoT system is studied to achieve synchronization technology in low SNR and high frequency offset environments, which has high practical research significance. Therefore, this paper focused on the implementation of downlink synchronization technology in smart grid based on narrow-band IoT. Aiming at the performance degradation of downlink synchronization in narrow-band IoT caused by low SNR and high frequency offset, we proposed an improved scheme using differential correlation and PMF+FFT algorithm. It realized the PSS timing monitoring process and frequency offset detection process. By building the corresponding downlink synchronization channel link-level simulation platform, we compared and analyzed with the piecewise correlation algorithm. The results show that this scheme can significantly improve the timing detection accuracy, and effectively eliminate the influence of frequency offset. And we analyzed the performance improvement of each module.
The downlink synchronization technology based on narrow-band IoT system is studied to achieve synchronization technology in low SNR and high frequency offset environments, which has high practical research significance. Therefore, this paper focused on the implementation of downlink synchronization technology in smart grid based on narrow-band IoT. Aiming at the performance degradation of downlink synchronization in narrow-band IoT caused by low SNR and high frequency offset, we proposed an improved scheme using differential correlation and PMF+FFT algorithm. It realized the PSS timing monitoring process and frequency offset detection process. By building the corresponding downlink synchronization channel link-level simulation platform, we compared and analyzed with the piecewise correlation algorithm. The results show that this scheme can significantly improve the timing detection accuracy, and effectively eliminate the influence of frequency offset. And we analyzed the performance improvement of each module.
引文
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[12] 李焜,王喆,无线通信电波传播模型的研究[J].无线通信技术,2008,17(1):10-12.
[2] 袁静,马华兴.物联业务对蜂窝移动通信网络资源配置的影响[C]//中国通信学会信息通信网络技术委员会2011年年会,2012.
[3] 刘蓉.无线通信技术在LED路灯监控系统中的应用[J].信息技术与信息化,2014(12):137-138.
[4] 李娟,胡晓玲,李自刚.窄带物联网NB-IOT能耗测试浅析[J].电信网技术,2016(8):65-67.
[5] 李利.OFDM技术在高速实时图像传输中的应用[C]//中国航空学会制导与引信专业信息网学术交流会,2005.
[6] 钱小聪,穆明鑫.NB—IoT的标准化、技术特点和产业发展[J].信息化研究,2016(5):23-26.
[7] Brown T,Wang M M.An iterative algorithm for single-frequency estimation[J].IEEE Transactions on Signal Processing,2002,50(11):2671-2682.
[8] 高原.3GPP TD-LTE系统下行同步技术的研究[D].广州:华南理工大学,2010.
[9] 高原,张远见,许鸿辉.一种CDMA2000系统的PN码初始捕获算法[J].通信技术,2010,43(1):185-187.
[10] 宁克友.基于FPGA的GNSS信号快速捕获算法的研究与实现[D].北京:北京工业大学,2016.
[11] Nadir Z,Elfadhil N,Touati F.Pathloss Determination using Okumura-Hata Model and Spline Interpolation for missing Data for Oman[J].Lecture Notes in Engineering & Computer Science,2008,2181(1):77-87.
[12] 李焜,王喆,无线通信电波传播模型的研究[J].无线通信技术,2008,17(1):10-12.
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