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[1]崔延星,刘黎平,何建新,等.基于云雷达、C波段连续波雷达和激光云高仪融合数据的华南夏季云参数统计分析[J].成都信息工程大学学报,2018,(03):242-249.[doi:10.16836/j.cnki.jcuit.2018.03.004]
 CUI Yan-xing,LIU Li-ping,HE Jian-xin,et al.Statistical Analysis of South China Summer Cloud Parameters based onCloud Radar,C-band Continuous Wave Radar and Ceilometer Fusion Data[J].Journal of Chengdu University of Information Technology,2018,(03):242-249.[doi:10.16836/j.cnki.jcuit.2018.03.004]
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基于云雷达、C波段连续波雷达和激光云高仪融合数据的华南夏季云参数统计分析

参考文献/References:

[1] 赵玉春,王叶红.近30年华南前汛期暴雨研究概述[J].暴雨灾害,2009(3):193-202,228.
[2] Su-Bin OH,Yeon-Hee KIM,Ki-Hoon KIM,et al.Verification and Correction of Cloud Base and Top Height Retrievals from Ka–band Cloud Radar in Boseong,Korea[J].Advances in Atmospheric Sciences,2016(1):73-84.
[3] 仲凌志,刘黎平,葛润生.毫米波测云雷达的特点及其研究现状与展望[J].地球科学进展,2009(4):383-391.
[4] 秦宏德.青藏高原那曲地区强对流天气的大气静力能量垂直分布[J].高原气象,1983,V2(1):61-65.
[5] 刘黎平,楚荣忠,宋新民,等.GAME-TIBET青藏高原云和降水综合观测概况及初步结果[J].高原气象,1999,18(3):441-450.
[6] 李曦,周筠珺,刘黎平,等.毫米波云雷达反演层云微物理参数的个例试验[J].成都信息工程学院学报,2013,28(3):274-283.
[7] 仲凌志.毫米波测云雷达系统的定标和探测能力分析及其在反演云微物理参数中的初步研究[D].北京:中国气象科学研究院,2009.
[8] Zhao C,Liu L,Wang Q,et al.Toward Understanding the Properties of High Ice Clouds at the Naqu Site over the Tibetan Plateau Using Ground-based Active Remote Sensing Measurements Obtained during a Short Period in July 2014[J].American Meteorologial Society,2016.
[9] Mace G G,Heymsfield A J, Poellot M R.On retrieving the microphysical properties of cirrus clouds using the moments of the millimeter-wavelength Doppler spectrum[J].Journal of Geophysical Research Atmospheres,2002,107(D24):AAC-1-AAC 22-26.
[10] Matrosov S Y,Korolev A V,Heymsfield A J.Profiling Cloud Ice Mass and Particle Characteristic Size from Doppler Radar Measurements[J].Journal of Atmospheric & Oceanic Technology,2002,19:1003-1018.
[11] Schmidt J M,Flatau P J,Yates R D.Convective Cells in Altocumulus Observed with a High-Resolution Radar[J].Journal of the Atmospheric Sciences,2013,71(6):2130-2154.
[12] 樊雅文,黄兴友,李锋.毫米波雷达测云个例研究[J].大气科学学报,2013,36(5):554-559.
[13] 尹金方.东亚区域云和降水微物理特征及云微物理参数化方案构建[D].杭州:浙江大学,2013.
[14] 周毓荃,蔡淼,欧建军,等.云特征参数与降水相关性的研究[J].大气科学学报,2011,34(6):641-652.
[15] 林丹.利用MODIS卫星产品分析西南地区云水特征[J].气象科技,2015,43(1):138-144.
[16] 张晓,段克勤,石培宏.基于CloudSat卫星资料分析青藏高原东部夏季云的垂直结构[J].大气科学,2015(6):1073-1080.
[17] Liu L,Zheng R,Zheng J,et al.Comparing and Merging Observation Data from Ka-Band Cloud Radar,C-Band Frequency-Modulated Continuous Wave Radar and Ceilometer Systems[J].Remote Sensing,2017,9(12):1282.
[18] Liu L,Zheng J,Wu J.A Ka-band solid-state transmitter cloud radar and data merging algorithm for its measurements[J].大气科学进展,2017,34(4):545-558.
[19] Zhao C,Liu L,Wang Q,et al.MMCR-based characteristic properties of non-precipitating cloud liquid droplets atNaqu site over Tibetan Plateau in July 2014[J].Atmospheric Research,2017,190:68-76.
[20] 谢晓林,刘黎平.云雷达联合微波辐射计反演混合性降水层云液态水含量的方法研究[J].暴雨灾害,2016(1):1-9.
[21] Heng Z,Fu Y,Liu G, et al.A Study of the Distribution and Variability of Cloud Water Using ISCCP,SSM/I Cloud Product,and Reanalysis Datasets[J].Journal of Climate,2014,27(9):3114-3128.
[22] Shupe M D.A ground-based multisensor cloud phase classifier[J].Geophysical Research Letters,2007,34.
[23] Comstock J M,Protat A,McFarlane S A,et al.Assessment of uncertainty in cloud radiative effects and heating rates through retrieval algorithm differences:Analysis using 3 years of ARM data at Darwin,Australia[J].Journal of Geophysical Research:Atmospheres,2013,118(10):4549-4571.
[24] Luke E P,Pavlos K,Shupe M D.Detection of supercooled liquid in mixed‐phase clouds using radar Doppler spectra[J].Journal of Geophysical Research Atmospheres,2010,115(D19):5548-5554.

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备注/Memo

收稿日期:2018-03-15基金项目:国家自然科学基金资助项目(41675023)

更新日期/Last Update: 2018-02-28