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改进的互功率谱相位法在雷声声源定位中的应用 被引量:8

Application of Improved Cross Power Spectrum Phase Method to Acoustic Source Localization of Thunder
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摘要 互相关函数法是一种常用的时延估计方法,但在低信噪比和闪电存在多分叉的情况下,该方法的效果不理想。针对这一问题,该文选取广州地区2009年8月24日19:08:04和2012年5月5日08:01:00的两次闪电过程的雷声记录,结合高速摄像资料,比较了互相关函数法和改进的互功率谱相位法在雷声声源定位中的应用效果。首先,利用互相关函数法和改进的互功率谱相位法计算声源点的方向信息,定位结果与高速摄像照片对比具有较好的一致性,证明了定位方法的可靠性,对比结果表明:在低信噪比环境和多分叉闪电情况下,改进的互功率谱相位法能够获得比互相关函数法更好的定位效果。最后给出了综合利用改进的互功率谱相位法计算得到的方向信息和声源点与观测点的距离信息得到的雷声声源三维定位结果。 The thunder sound source is located by using single station lightning channel three dimensional imaging system. Different time delaying estimation method is used, among which the cross correlation function method and the cross power spectrum phase method are mainly introduced. Considering the high frequency noise produced by the lightning process, reflection reverberation caused when the thunder reaches the ground, all kinds of noise is superimposed on the thunder signal (such as collection circuit itself noise), and an improved cross power spectrum phase delay estimation method is raised.Station imaging system is composed of microphone array and data acquisition card. A large amount of reliable data is collected by the system on the roof of Guangdong Provincal Meteorological Bureau building since 2009. Two thunder processing records in Guangzhou are selected, combined with the high speed camera data, and the cross correlation function method and the improvement cross power spectrum phase method are compared in the application of acoustic localization of thunder. First, the time difference of thunder signal reaching the different microphones is calculated by using the cross correlation function method and the improved cross power spectrum phase method. Then, the sound source azimuth and elevation angle information are solved by the array geometry. Comparing with the two dimensional photographs observed by high speed camera, the imaging result is in good agreement, showing good reliability. As the cross correlation function method algorithm is based on the amplitude correlation, it can’t distinguish the array arriving simultaneously from different sound source. Because its noise immunity is weak, the discrete imaging point can’t depict the channel shape better. Instead, the improved cross power spectrum phase method calculates time delay by phase difference, and it has strong noise immunity and intensive imaging point, so it does better in discerning the branch channel. The contrast result indicates that the improved cross power spectrum phase method is better than the cross correlation function method for the low signal to noise ratio environments and multi forked lightning. Finally, three dimensional thunder source is obtained through the direction information and distance of thunder calculated with improved cross power phase method.The application of single station microphone array imaging system reduces the environmental requirements and costs. Although the accuracy of results is low, for close range, multi branch, multi ground lightning, the single station microphone array provides a simple and practical three dimensional observation programs, and it has application prospects for small scale lightning monitoring, early warning and research. A real time processing of three dimensional imaging thunder sound source system is in plan, based on a single station of microphone array, and it will play its unique role in the three dimensional structure of the lightning research.
出处 《应用气象学报》 CSCD 北大核心 2014年第2期193-201,共9页 Journal of Applied Meteorological Science
基金 国家自然科学基金项目(41075003 41030960 41205002) 中国气象科学研究院基本科研业务费专项资金(2010Z004)
关键词 信噪比 多分叉闪电 雷声 改进的互功率谱相位法 signal-to-noise ratio multi-branch lightning thunder improved cross power spectrum phasemethod
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