大气应用的先进信号处理技术

2015 International Conference on Microwave, Optical and Communication Engineering (ICMOCE) Pub Date : 2015-12-01 DOI:10.1109/ICMOCE.2015.7489725

P. Krishna Murthy, S. Narayana Reddy

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引用次数: 0

摘要

低层大气风廓线仪(LAWP)的主要目标是在所有天气条件下提供连续的高分辨率风测量。该大气雷达需要进行信号处理，通过探测回波的多普勒频移和信噪比来测量风矢量的高度廓线。l波段风廓线仪用于在低层大气中进行研究。这些雷达以最大平均功率(高度覆盖)实现更好的距离分辨率。在本工作中处理的信号是从印度Gadanki国家大气研究实验室(NARL)的LAWP获得的。信噪比计算是信号处理中的一个重要参数。本文讨论了利用经验模态分解(EMD)提高LAWP信号信噪比的方法。计算该数据的去噪信号的信噪比，并将EMD去噪信号与小波去噪信号比较。结果表明，采用EMD技术对LAWP信号进行降噪后，信噪比有所提高。

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Advanced signal processing techniques for atmospheric applications using EMD

The main objective of the Lower Atmospheric Wind Profiler (LAWP) is used to provide continuous high resolution wind measurements in all weather conditions. Signal processing of this atmospheric radar is necessary to measure the height profile of wind vector by detecting the Doppler shift of echoes and signal to noise ratio (SNR). The L-band wind profiler is used for conducting research in the lower atmosphere. These radars achieve better range resolution with maximum average power (height coverage). The signals, which are processed in the present work has been obtained from the LAWP at National Atmospheric Research Laboratory (NARL), Gadanki, India. SNR computation is an important parameter in signal processing. This paper discusses improvement of SNR using Empirical Mode Decomposition (EMD) for LAWP signals. SNR for this data is computed de-noised signals and EMD de-noised signals are compared with the Wavelets de-noised signals. Results shows that there is an improvement in SNR after de-noising using EMD technique for LAWP signals.

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2015 International Conference on Microwave, Optical and Communication Engineering (ICMOCE)

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