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星载微波辐射计周期定标技术的综述

吕颖 张祖荫 郭伟 漆兰芬

吕颖, 张祖荫, 郭伟, 漆兰芬. 星载微波辐射计周期定标技术的综述[J]. 电子与信息学报, 1997, 19(5): 695-700.
引用本文: 吕颖, 张祖荫, 郭伟, 漆兰芬. 星载微波辐射计周期定标技术的综述[J]. 电子与信息学报, 1997, 19(5): 695-700.
Lu Ying, Zhang Zuyin, Guo Wei, Qi Lanfen. PERIODIC CALIBRATION OF SPACEBORNE MICROWAVE RADIOMETER-A REVIEW[J]. Journal of Electronics and Information Technology, 1997, 19(5): 695-700.
Citation: Lu Ying, Zhang Zuyin, Guo Wei, Qi Lanfen. PERIODIC CALIBRATION OF SPACEBORNE MICROWAVE RADIOMETER-A REVIEW[J]. Journal of Electronics and Information Technology, 1997, 19(5): 695-700.

星载微波辐射计周期定标技术的综述

PERIODIC CALIBRATION OF SPACEBORNE MICROWAVE RADIOMETER-A REVIEW

  • 摘要: 本文从周期定标方式、定标方程和定标误差分析等几个方面全面系统地阐述了星载微波辐射计周期定标技术,介绍了国外的最新动态.这对我们设计自己的星载辐射计周期定标系统是大有俾益的.
  • Njoku E G, Stacey J M, Barath F T. The seasat Scanning Multichannel Microwave Radiometer[2](SMMR): Instrument description and performance. IEEE J. of Oceanic Eng., 1980, OE-2(2): 100-115.[3]Arai K. Results from marine observation satellite-1 (MOS-1) operation. IEEE Trans. on GRS, 1990, GRS-28 ( 4 ) : 760-763.[4]Bernard R, et al. The microwave radiometer aboard ERS-1: Part 1-Characteristics and performantes. IEEE Trans. on GRS, 1993, GRS-31(6): 1186-1198.[5]Ruf G S, Keihm S J, Jassen M A. TOPEX/Poseidon Microwave Radiometer (TMR): I. Instrument[6]description and antenna temperature calibration. IEEE Trans. on GRS, 1995, GRS-33(1): 125-137.[7]徐培源.微波毫米波辐射计两项新技术.上海市电子学会1991年学术年会,上海:1991, 1-4.[8]罗忠成.全功率辐射计周期定标技术及数据处理系统:[硕士论文].华中理工大学电信系,1991.[9]Hollinger J P, Peirce J L, Poe G A. SSM/I instrument evaluation. IEEE Trans. on GRS, 1990, GRS-28(5): 781-790.[10]Menard Y.[J].Reynolds M. The Design of the ESA Multiband Imaging Microwave Radiometer(MIMR). Proc. IGARSS9.1991,:-[11]Le Vine D M, et al. A multifrequency microwave radiometer of the future. IEEE Trans. on GRS, 1989, GRS-27(2); 193-198.[12]Dixon P F. Microwave absorbers: Theory, design and test. Microwave J., 1993, 36(11): 88-94.[13]Hardy W N. Precision temperature reference for microwave radiometry. IEEE Trans. on MTT, 1973, MTT-21(2): 149-150.[14]Goldsmith P F, Kot R A, Iwasaki R S. Microwave radiometer blackbody calibration standard for use at millimeter wavelengths[J].Rev. Sci. Instru.1979, 50(9):1120-1122[15]Banfield L J. Proposed design of the temperature control system for the variable temperature cali-bration target for the advanced microwave sounding unit B. Proc. IGARSS88, Edinburgh, Scotland, 1988,21-22.[16]Swanson P N, Riley A L. The seasat scanning multichannel microwave radiometer (SMMR): Radiometric calibration algorithm development and performance. IEEE J. of Oceanic Eng, 1980, OE-5(2): 116-124.[17]Wentz F J. Measurement of oceanic wind vector using satellite microwave radiometers. IEEE Trans. on GRS, 1992, GRS-30(5): 960-972.[18]林士杰.星载微波辐射计周期定标技术的改进.华中理工大学微波技术教研室内部报告,1995.[19]Ulaby F T, Moore F T, Fung A K. Microwave Remote Sensing: Active and Passive, Volume 1: Microwave Remote Sensing Fundamentals and Radiometry. Reading, MA: Addison-Wesley, 1981, 78-87.[20]Bucci O M, Franceschetti G. Scattering from wedged-tapered absorbers. IEEE Trans. on AP, 1971, AP-19(1): 96-104.[21]Janaswamy R. Oblique scattering from lossy periodic surfaces with application to unechoic chamber[22]absorbers. IEEE Trans. on AP, 1992, AP-40(2): 162-169.[23]Peckham G E. An optimum calibration procedure for radiometers[J].Int. J. of Remote Sensing.1989, 10(1):227-236
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  • 被引次数: 0
出版历程
  • 收稿日期:  1996-06-13
  • 修回日期:  1996-12-03
  • 刊出日期:  1997-09-19

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