地球科学进展

地球科学进展 ›› 2008, Vol. 23 ›› Issue (2): 142 -150. doi: 10.11867/j.issn.1001-8166.2008.02.0142

综述与评述 上一篇    下一篇

相控阵技术在大气探测中的应用及面临的挑战
杨金红1,2,高玉春3,4,程明虎1,4   
  1. 1. 中国气象科学研究院,北京 100081; 2. 南京信息工程大学,江苏 南京 210044;3. 中国气象局大气探测技术中心,北京 100081;4. 北京邮电大学,北京 100876
  • 收稿日期:2007-10-23 修回日期:2008-01-17 出版日期:2008-02-10
  • 通讯作者: 杨金红 E-mail:yangjh0407@163.com
  • 基金资助:

    财政部行业专项“相控阵天气雷达系统关键技术研究”(编号:GYHY(QX)2007-6-2);国家自然科学金项目“利用雷达等资料结合临近预报和水文模式预报流域径流的研究”(编号:40575009)共同资助.

Application of phased array technology detecting atmosphere and coming challenges

Yang Jinhong1,2Gao Yuchun3,4Cheng Minghu1,4   

  1. 1. Chinese Academy of Meteorological Sciences,  Beijing 100081, China;
    2. Nanjing University of Information Sciences and Technology,  Nanjing 210044, China;
    3. Atmosphere Observation Technology Center of China, Beijing 100081, China;
    4. Beijing University of Posts and Telecommunications, Beijing 100876, China
  • Received:2007-10-23 Revised:2008-01-17 Online:2008-02-10 Published:2008-02-10
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近年国际上相控阵技术在大气探测领域中的应用有了重要进展,成为雷达气象学研究的又一新热点,并可能成为今后天气雷达发展的重要方向。介绍了相控阵技术在大气探测中应用现状和研究进展,以及近年在气象应用中所获得的最新研究结果,展望了相控阵技术的应用前景,进一步讨论了开展相控阵技术研究所面临的技术挑战和未来发展的方向。为我国开展相控阵天气雷达的研制提供参考。

关键词: 相控阵技术, 大气探测, 多波束, 扫描策略

In recent years the study of phased array technology for detecting atmosphere has been made great progress, and become a popular aspect of radar meteorology. Phased array weather radar has the characteristics of less scanning time, higher resolution than conventional Doppler weather radar both in time and space. It also has the capability of real-time detection and be able to obtain high quality data. With these characteristics, it will become a “hot point” in the field of weather detection radar. This paper presents detecting technology status of phased array and its evolvement, and new application for detecting atmosphere of phased array technology, and prospects future meteorological application of phased array detecting technology. At a more advanced stage, the upcoming technology challenges and the future development trends are addressed, being useful to the study of phased array weather radar in China.

Key words: Phased array technology, Atmospheric detection, Multi-beam, Scanning strategies.

中图分类号: 

[1] Zhang Guangyi. Technical characteristics and key techniques of phased array radar[J]. Electronic Science & Technology Review1996,(7: 2-4. [张光义.相控阵雷达的技术特点及关健技术[J].电子科技导报,1996,(7:2-4.]

[2] Zhang GuangyiZhao Yujie. Phased Array Radar Technology [M]. Beijing: Publishing House of Electronics Industry2006:2-3. [张光义,赵玉洁. 相控阵雷达技术[M]. 北京:电子工业出版社,2006:2-3.]

[3] Douglas E ForsythJames F KimpelDusan S Zrnicet al. Bulding the national weather radar testbed phased-array[C]Preprints19th International Conference on Interactive Information and Processing System IIPS. Long Beach: American Meteorological Society2003.

[4] Forsyth D EKimpel J FZrnic D Set al. The national weather testbadphase-array[C]Preprints18th International Conference on Iinteractive Information and Processing System IIPS. Orlando: American Meteorological Society2002: 140-141.

[5] Richard J DoviakDusan S ZrnicAlan Shapiro. Phased array weather radar-benefits and challenges[C]Preprints30th Conference on Radar Meteorology. Munich: American Meteorological Society2001:202-204.

[6] Sheldon L KatzJames V MelodyTinothy W Hodgeet al. Radar control architecture for the national weather radar testbed[C]Preprints30th Conference on Radar Meteorology. Munich: American Meteorological Society2001.

[7] Leslie R Lemon. The US national weather radar testbedphased array:potential impact on aviation[C]Preprints30th Conference on Radar Meteorology. Munich: American Meteorological Society2001.

[8] Douglas E ForsythJames F KimpelDusan S Zrnicet al. Progress report on the national weather radar testedphased-array[C]Preprints21st International Conference on Iinteractive Information and Processing SystemIIPS. San Diego: American Meteorological Society2005.

[9] McNellis TomKatz SCampbell Met al. Recent Advances in Phased Array Radar for Meteorological Applications[C]Preprints21st International Conference on Iinteractive Information and Processing SystemIIPS. San Diego: American Meteorological Society2005.

[10] Douglas E ForsythJames F KimpelDusan S Zrnicet al. Update on the national weather radar testbedphased-array[C]Preprints23rd International Conference on Interactive Information and Processing System IIPS.San Antonio: American Meteorological Society2007.

[11] Le K DPalmer R DYu T Yet al. Adaptive array processing for multi-mission phased array radar[C]Preprints33rd Conference on Radar Meteorology. Australia: American Meteorological Society2007.

[12] Douglas E ForsythJames F KimpelDusan S Zrnicet al. Update on the national weather radar testbedphased-array[C]Preprints33rd Conference on Radar Meteorology. Australia: American Meteorological Society2007.

[13] David L PriegnitzHeinselman P LCurtis C Det al. Dynamic scanning for the national weather radar testbed[C]Preprints33rd Conference on Radar Meteorology. Australia: American Meteorological Society2007.

[14] Pam HeinselmanDavid PriegnitzTravis Smithet al. Spring 2007 national weather radar testbed demonstration[C]Preprints33rd Conference on Radar Meteorology. Australia: American Meteorological Society2007.

[15] Ivan PopStefanijaAndrew PazmanyProSensing Incet al. An X-Band phased array Doppler weather radar[C]Preprints31st International Conference on radar meteorology. Seattle : American Meteorological Society2003

[16] Eric LoewWenchau LeeJothiramet al. An airborne phased array radar concept for atmospheric research[C]Preprints33rd Conference on Radar Meteorology. Australia: American Meteorological Society2007.

[17] Tang Baofu. Structural design of phased array antenna for weather radar [J]. Electro-mechanical Engineering2006221:27-29.[唐宝富. 气象雷达的相控阵天线结构设计[J].电子机械工程,2006221:27-29.]

[18] William Benner GTorok  MBatista-Carveret al. MPAR Program Overview and Status [C]Preprints23rd International conference on interactive information and processing system IIPS.San Antonio: American Meteorological Society2007.

[19] Mark WeberJohn ChoJames Flavinet al. Multi-function phased array radar for US civil-sector surveillance needs [C]Preprints23rd International conference on interactive information and processing system IIPS.San Antonio: American Meteorological Society2007.

[20] Mark WeberJohn ChoJeff Herdet al. Multifunction Phased Array Radar: Technical SynopsisCost Implications and Operational Capabilities[C]Preprints23rd International conference on interactive information and processing systemIIPS.San Antonio: American Meteorological Society2007.

[21] Zhang Yue. The application of phased array technology in weather radar [J]. Modern Radar200325 12: 23-25.[张越. 相控阵技术在天气雷达中的应用[J]. 现代雷达,20032512):23-25]

[22] Zhang YueZhang Ziliang. The Application of phased array weather radar in atmospheric sounding [J]. Electronic Engineering Information2005,(5:1-3. [张越,张子良.相控阵天气雷达在大气探测中的应用[J].电子工程信息,2005,(5:1-3.]

[23] Pamela HeinselmanDavid PriegnitzKevin Manrosset al. Comparison of Storm Evolution Characteristics: The NWRT and WSR-88D[C]Preprints23rd International conference on interactive information and processing systemIIPS.San Antonio: American Meteorological Society2007.

[24] Travis M SmithPamela L HeinselmanDavid Priegnitzet al. Characteristics of microburst events observed with the national weather radar testbed phased array radar[C]Preprints23rd International conference on interactive information and processing systemIIPS.San Antonio: American Meteorological Society2007.

[25] James PintoCathy KessingerBen Hendricksonet al. Storm characterization and short term forecasting using a phased array radar[C]Preprints33rd Conference on Radar Meteorology. Australia: American Meteorological Society2007.

[26] Rodger A BrownBradley A FlickingerEddie Forrenet al. Improved detection of severe storms using experimental fine-resolution WSR-88D measurements [J].Weather and Forecasting2005220: 3-14.

[27] Rodger A BrownVincent T WoodDale Sirmans. Improved tornado detection using simulated and actual WSR-88D data with enhanced resolution [J]. Journal of Atmospheric and Oceanic Technology20021119: 1 759-1 771.

[28] Vincent T WoodRodger A Brown. Effects of radar sampling on single-Doppler velocity signatures of mesocyclones and tornadoes [J]. Weather and Forecasting19971212: 928-938.

[29] Guifu ZhangRichard J Dovoak. Spaced-Antenna Interferometry to Measure Crossbeam WindShearand Turbulence: Theory and Formulation [J]. Journal of Atmospheric and Oceanic Technology2007524:791-805.

[30] Guifu ZhangRichard J Dovoak. A theory for the phased-array weather-radar to measure crossbeam windshear and turbulence[C]Preprints23rd International conference on interactive information and processing systemIIPS.San Antonio: American Meteorological Society2007.

[31] Fabry FredericChuck Frush. On the extraction near-surface index of refraction using radar phase measurements from ground targets [J]. Journal of Atmospheric and Oceanic Technology1997814: 978-987.

[32] Fabry Frederic. Meteorological value of ground target measurements by radar [J]. Journal of Atmospheric and Oceanic Technology2004421: 560-573.

[33] Cheong B LPalmer RDCurtis C D. Refractivity measurements from ground clutter using the national weather radar testbed phased array radar[C]Preprints23rd International conference on interactive information and processing systemIIPS.San Antonio: American Meteorological Society2007.

[34] Xue WangweiZhang Jianyun. Development trend of key technology of phase array antenna [J]. Modern Defence Technology2007351:96-100.[薛王伟,张剑云. 相控阵天线关键技术发展趋势[J]. 现代防御技术,2007351: 96-100.]

[35] Lai K HLongstaff I DCallaghan G D. Super-fast scanning technique for phased array weather radar applications [J]. IEEE Pro.-Radar Sonar Navig20045151:271-279.

[36] Marko B OrescaninTianYou YuChristopher D Curtiset al.Signal Processing of Beam-multiplexed Data for Phased-Array Weather Radar[C]Preprints23rd International conference on interactive information and processing systemIIPS.San Antonio: American Meteorological Society2007.

[37] Christopher D CurtisYu TY. Beam Multiplexing on the NWRT:Looking Ahead[C]Preprints23rd International conference on interactive information and processing systemIIPS. San Antonio: American Meteorological Society2007.

[38] Yu TianyouOrescanin M BCurtis C Det al.Optimization of Weather Update Time and Data Quality Using Phased-Array Radar[C]Preprints23rd International conference on interactive information and processing systemIIPS.San Antonio: American Meteorological Society2007.

[39] Yu TianyouMarko B rescaninChristopher D Curtis. Beam multiplexing using the phased array weather radar [J]. Journal of Atmospheric and Oceanic Technology2006244: 616-626.

[40] Lei TingMing XueTianyou Yuet al. Study on the optimal scanning strategies of phase-array radar throuth ensemble kalman filter assimilation of simulated data[C]Preprints33rd Conference on Radar Meteorology. Australia: American Meteorological Society2007.

[41] Xu QinHuijuan LuLi Weiet al. Studies of phased-array scan strategies for radar data assimilation[C]Preprints33rd Conference on Radar Meteorology. Australia: American Meteorological Society2007.

[42] Lakshmanan ValliappaKurt Hondl. A polar-coordinate real-time three-dimensional rapidly updating merger technique for phased array radar scanning strategies[C]Preprints33rd Conference on Radar Meteorology. Australia: American Meteorological Society2007.
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