attenuation correction meaning in Chinese
衰减校正
Examples
- The attenuation correction coefficient influences correction quantity and correctable thickness
衰减订正系数影响订正量的大小和可订正厚度。 - In this paper , the theory for attenuation correction has been studied and advantages and disadvantages of several algorithms for applications have been analyzed . further more , some of them have been applied on real data
本文从衰减订正算法的理论研究入手,详细探讨了几种衰减订正算法的优缺点,并在实际资料中对几种算法进行了应用。 - In addition , this paper provides the co - plane display of the volumetric - scan data of two weather radars . in a result , time - space accordance effect and attenuation correction effect for data of two weather radars can be viewed directly
本文进行了双雷达联合探测资料的共面显示,可以比较直观地看到双雷达资料的空间对应效果和衰减订正的效果。 - The results show that these algorithms for attenuation correction can work well in the valid range and their effects on attenuation correction are almost identical . when attenuation is strong or measurement error of real echo is large , however , the result from the h - b algorithm for attenuation correction is not good
结果表明:在有效的订正范围内,几种订正方法均能得到很好的订正,并且订正效果几乎保持一致,但h - b算法在衰减作用很强或实际回波测量值误差很大时,其订正结果就变得不可靠了,从而造成订正能力下降。 - Main conclusions drawn from the analyses of calculating results are as follows : ( 1 ) the microwave absorption of atmosphere gas have obvious attenuation at the wavelengths for cloud detection , thereinto , the water attenuation effect changes greatly , so the 94ghz cloud detecting radar should have water vapor attenuation correction scheme . ( 2 ) when 37ghz and 94ghz radars detect clouds , the difference between the atmosphere and cloud attenuation and the large variety of radar reflectivity conduce the intension of the radar backscatter signals change . ( 3 ) for the thin cloud layer and low water content of cloud , 37 - ghz radar backscatter signals are not as good as 94 - ghz radar , that is to say that the 94ghz radar has better capability in thin clouds detection
本工作得出如下结论: ( 1 )大气气体的微波吸收在测云波段产生明显的衰减,其中水汽衰减效应变化很大;即将上天的空间94ghz测云雷达必须有水汽衰减订正方案; ( 2 ) 37ghz和94ghz雷达测云,由于大气和云衰减不同和雷达反射率的很大差异,导致雷达回波信号强弱不同; ( 3 )对云层较薄、含水量较少的云,在不计雷达参数的情况下, 37ghz雷达回波信号不如94ghz测云雷达,也就是说94ghz对薄云有更强的探测能力;对云层较厚、含水量大的云,由于强衰减的作用, 94ghz雷达回波信号小于37ghz雷达; ( 4 )从大气衰减的不利因素方面考虑,空间94ghz雷达测高层薄云的效果最好;测低层薄云时需要考虑气体衰减订正;因浓厚云的强衰减作用,探测其中下部的能力大大减弱,不仅要进行衰减订正,而且要借助其他信息来反演整个云层的含水量垂直分布; ( 5 )为了获得从极薄到极浓厚云的垂直分布探测能力,未来测云雷达系统最好采用双波长甚至三波长(如94 、 37和13ghz ) 。