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광대역 위성 SAR 시스템에서 유효 이득패턴을 이용한 방사정확도 향상에 관한 연구

신재민 2016년

논문상세정보
    • 저자 신재민
    • 기타서명 Study on the Improvement of Radiometric Accuracy using the Effective Gain Pattern for the Spaceborne SAR System at a Wideband
    • 형태사항 26 cm: 삽화: vi, 115 p.
    • 일반주기 충남대학교 논문은 저작권에 의해 보호받습니다, 지도교수: 나성웅, 참고문헌 : p. 104-111
    • 학위논문사항 2016. 8, 충남대학교 대학원, 학위논문(박사)-, 전자전파정보통신공학과 통신 및 신호처리 전공
    • DDC 621.38, 22
    • 발행지 대전
    • 언어 kor
    • 출판년 2016
    • 발행사항 충남대학교 대학원
    유사주제 논문( 847)
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' 광대역 위성 SAR 시스템에서 유효 이득패턴을 이용한 방사정확도 향상에 관한 연구' 의 주제별 논문영향력
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' 광대역 위성 SAR 시스템에서 유효 이득패턴을 이용한 방사정확도 향상에 관한 연구' 의 참고문헌

  • “한반도 지형에 적합한 SAR 위성의 운영모드 설계”
    김응현 신재민 이상곤 이상률 임정흠 항공우주기술, 3권 2호, pp. 34~41 [2004]
  • “차세대위성을 위한 SAR 위 성 임무운영 설계”
    김응현 신재민 이상률 이진호 임정흠 한국항공우주학회, 춘계학술발표회 논문집, pp. 877~880, 2004 [2004]
  • “차세대 위성탑재체 합성개구면레이더 (SAR: Synthetic Aperture Radar)”
    문홍열 신재민 윤재철 이진호 천용식 최해진 항공우주산업기 술동향, 3권 1호, pp. 65~71 [2005]
  • “지구관측위성 현황 조사”
    김응현 김희섭 신재민 임정흠 항공우 주기술, 2권, 1호, pp. 63~72 [2003]
  • “영상레이더 정보의 처리 및 활용 (Imaging Radar Data Processing and its Application)”
    금정훈 신재민 윤재철 통신위성우주산업연구회 논문지, 20권, 1호 [2013]
  • “영상레이더 위성개발 국외 현황”
    신재민 Korea Aerospace Research Institute, KARI Technical Memo, KARI-K5T--017 [2011]
  • “다목적실용위성 영상활용 기대효과”
    신재민 Korea Aerospace Research Institute, KARI Technical Memo, KARI-K5T-TM--016 [2011]
  • “SAR 위성탑재체 기술현황”
    신재민 기계저널, 45권, 7호, pp. 47~50 [2005]
  • “SAR 위성 검보정_점표적을 위한 각면판반사기 고찰”
    신재민 Korea Aerospace Research Institute, KARI Technical Memo, KARI-K5T-TM--011 [2009]
  • “SAR 위성 검보정_방사보정을 위한 검보정사이트 연구”
    신재민 Korea Aerospace Research Institute, KARI Technical Memo, KARI-K5T-TM--010 [2009]
  • “SAR 위성 검보정 - K-5 몽골 검보정사이트 ST-mode CR 설치”
    신재민 Korea Aerospace Research Institute, KARI Technical Memo, KARI-K5T-TM--012 [2009]
  • “SAR 위성 검보정 - K-5 CR설치에 대한 X-band SAR 영상 연구”
    신재민 Korea Aerospace Research Institute, KARI Technical Memo, KARI-K5T-TM--013 [2009]
  • Yu-Jiun Ren and Chieh-Ping Lai, “Chap 17. Wideband Antennas for Modern Radar Systems in the book of Radar Technology”, InTech, Edited by Guy Kouemou, January, 2010.
  • Y.D. Shirman, S.P. Leshchenko, V.M. Orlenko, “Wideband Radar (Advatages and Problems)”, Ultrawideband and Ultrashort Impulse Signals, pp. 19~22, Sevastopol, Ukraine, 2004.
  • Y.D. Shirman, S.P. Leshchenko, V.M. Orlenko, “Advantages and Problems of Widband Radar”, in Proc. of the International Radar Conference, pp. 15~21, 2003.
  • Y. K. Chan and V. C. Koo, “An Introduction to Synthetic Aperture Radar (SAR)”, Progress In Electromagnetics Research B, Vol. 2, pp. 27~60, 2008.
  • Wang Jun, Cai Duo-Duo, Yang Fan, “Aperture Effect Influence and Analysis of Wideband Phased Array Radar”, 2012 International Workshop on Information and Electronics Engineering (IWIEE), Procedia Engineering 29, pp. 1298~1303, 2011.
  • WRC-15 (chairman-Festus Daudu), “Final Report from CEPT of WRC-15”, CEPT publishing, WRC-15, 2nd~27th Nov. 2015.
  • Ulander, L. M. H., “Accuracy of using Point Targets for SAR Calibration”, Transactions on Aerospace and Electronic Systems, IEEE, Vol. 27, No. 1, 1991.
  • Seyed Kasra Garakoui, Eric A.M. Klumperink, Bram Nauta, Frank E. van Vliet, “Phased-Array Antenna Beam Squinting Related to Frequency Dependency of Delay Circuits”, 2011 European Radar Conference, pp. 416~419, Manchester, 2011.
  • Sarabandi, K. and Chiu T.-C., “Optimum Corner Reflectors for Calibration of Imaging Radars”, Transactions on Antennas and Propagation, IEEE, Vol. 44, No. 10, pp. 1348~1361, 1996.
  • SHIN, J., LEE, K. J. and KIM, J. H., “Field Test of KOMPSAT-5 Calibration Equipment”, International Geoscience & Remote Sensing Symposium, IEEE, pp. 805-807, 2010.
  • S. Paloscia, P. Pampaloni, S. Sigismondi, “Effects of Crop Biomass on JERS-1 SAR Backscatter”, in proc. of final report of JERS-1/ERS-1 system verification program, pp. 3~8, March 1995.
  • S. Mohan, N. S. Mehta, R. L. Mehta, P. Patel, D. R. Rajak, H. S. Srivastava, “Evaluation of JERS-1 SAR Data for Soil Moisture and Crop Studies”, in proc. of final report of JERS-1/ERS-1 system verification program, pp. 55~64, March 1995.
  • Robert J. Mailloux, “Phased Arrays in Radar and Communication Systems – second edition”, ArTech House Inc., 2005.
  • Robert A. Ryerson, Floyd M. Henderson, Anthony J. Lewis, “Principles & Applications of Imaging Radar, Manual of Remote Sensing - third edition”, John Wiley & Sons, Inc., Vol. 2, 1988.
  • R. J. Mailloux, “Phased array antenna handbook”, ArTech House Inc., 2007.
  • R. Gunnarsson, A. Ouacha, B. Andersson, A. Nelander, and R. Erickson, “Comparison of wideband phased array concepts for achieving frequency independent radiation characteristics”, IEEE Radar Conference, pp. 1~6, Rome, 2008.
  • Qin, Y., Perissin D. and Lei, L., “The Design and Experiments on Corner Reflectors for Urban Ground Deformation Monitoring in Hong Kong”, International Journal of Antennas and Propagation, Hindawi Publishing Corporation, pp. 1~8, 2013.
  • P. Van Genderen, “State-Of-The-Art and Trends in Phased Array RADAR”, in Proc. of the conference of Perspectives on Radio Astronomy, pp. 12~14, 1999.
  • Matt Longbrake, “True Time-Delay Beamsteering for Radar”, IEEE National Aerospace and Electronics Conference, pp. 246~249, Dayton, OH, 2012.
  • Masanobu Yajima, “A Study on Measurement of Normalized Radar Cross Section of Earth Surfaces by Spaceborne Synthetic Aperture Radar”, Tokyo Univ. June 1998.
  • Masanobu Yajima, Takumi Hasegawa, “Beam Pointing Error of Wideband Planar Phased Array Antennas with Reduced True-Time-Delay Devices”, IEEE Global Telecommunications Conference, GLOBECOM 2005, Vol. 1, pp. 4161~4166, 2005.
  • M. I. Skolnik, “Introduction to Radar Systems – third edition”, New York, NY: McGraw-Hill, 2001.
  • John C. Curlander, Robert N. McDonough, “Synthetic Aperture Radar Systems and Signal Processing”, John Wiley & Sons, Inc. 1991.
  • Jae-Min Shin, Sung-Woong Ra, “Interference Analysis for Synthetic Aperture Radar Calibration Sites with Triangular Trihedral Corner Reflectors”, Int’l J. of Aeronautical & Space Sci. Vol. 17, No. 2, pp. 112~121, 2016.
  • Ian G. Cumming, Frank H. Wong, “Digital Processing of Synthetic Aperture Radar Data”, Artech house, Inc. 2005.
  • ITU, “Report ITU-R RS.2274”, ITU publishing, Sept. 2013.
  • H. Israelsson, J. Askne, “JERS-1 SAR Analysis of Boreal Forest Biomass”, in proc. of final report of JERS-1/ERS-1 system verification program, pp. 38~45, March 1995.
  • H. Hirosawa, “Some Quantitative Expressions on the SAR Image Quality”, Japan Remote Sensing Society, Vol. 5, p. 225, 1985.
  • Garthwaite, M. C., Nancarrow, S., Hislop, A., Thankappan, M., Dawson, J. H., Lawrie, S., “The Design of Radar Corner Reflectors for the Australian Geophysical Observing System – A Single Design Suitable for InSAR Deformation Monitoring and SAR Calibration at Multiple Microwave Frequency Bands”, Department of Industry and Science, Geoscience Australia, GeoCat 82751, 2015.
  • Freeman, A., “SAR Calibration: An Overview”, Transactions on Geoscience and Remote Sensing, IEEE, Vol. 33, No. 6, pp. 1107-1121, 1992.
  • F. T. Ulaby, R. K. oore, A. K. Fung, “Microwave remote sensing : Active and Passive Vol. II”, Addison-Wesley, 1982.
  • F. Portmann, H-G Mendel, “Soil Moisture Estimation in Hydrological Mesoscale Modeling using ERS SAR data”, in proc. The third symposium on Space at the service of our environment, Florence Italy, pp. 86~92, March 1996.
  • Doerry, A. W., “Reflector for SAR Performance Testing – second edition”, Sandia National Laboratories, Sandia Report, SAND2014-0882, 2014.
  • D. M. Pozar, “The Active Element Pattern”, IEEE Transactions on Antennas and Propagation, VOL. 42, NO. 8, pp. 1176~1178, August 1994.
  • Borkar, V. G., Ghosh, A., Singh, R. K. Chourasia, N., “Radar Cross-section Measurement Techniques”, Defense Science Journal, Vol. 60, No. 2, pp. 204-212, 2010.
  • Bj orn J. D oring, Marco Schwerdt, “The Radiometric Measurement Quantity for SAR Images”, IEEE Transactions on Geoscience and Remote Sensing, Vol. 51, No. 12, pp. 5307~5314, 2013.
  • Bassem R. Mahafza, “Radar Systems Analysis and Design using MATLAB third edition”, – CRC Press, 2013.
  • Bassem R. Mahafza, “Radar Signal Analysis and Processing using Matlab”, CRC Press, 2009.
  • B. Cantrell, J. Rao, G. Tavik, M. Dorsey, V. Krichevsky,“ Wideband Array Antenna Concept”, IEEE International Radar Conference, pp. 680~684, 2005.
  • Arun K. Bhattacharyya, “Phased Array Antennas”, John Wiley & Sons, Inc..
  • Armin W. Doerry, “Performance Limits for Synthetic Aperture Radar - second edition”, Sandia Report, SAND2006-0821.
  • Amandeep Bath, Abhishek Thakur, Jitender Sharma, Prof. Basudeo Prasad, “Study of Different Techniques to Design Ultra Wideband Antenna”, International Journal of Electrical & Electronics Engineering IJEEE, Vol. 1, Issue 1, pp. 20~25, Jan-Feb 2014,
  • Amandeep Bath , Abhishek Thakur, Naveen Kumar, Jitender Sharma, “Study of Wideband & Narrowband Antenna”, IJCSCE Special issue on Emerging Trends in Engineering & Management, ICETE, pp. 12~16, 2013.
  • Altan M. Ferendeci, Piyou Zhang, “Wideband Phased Array Antennas”, IEEE National Aerospace and Electronics Conference, pp. 151~153, Dayton, OH, 2008.
  • Alberto Moreira, “Synthetic Aperture Radar(SAR): Principles and Applications”, ESA 4th Advanced Training Course in Land Remote Sensing, 2003.
  • Alberto Moreira, Pau Prats-Iraola, Marwan Younis, Gerhard Krieger, Irena Hajnsek, and Konstantinos P. Papathanass iou, “A Tutorial on Synthetic Aperture Radar”, IEEE Geoscience and remote sensing magazine, pp. 6~43, March 2013.
  • A. Luckman, J. Baker, M. Honzak, R. Lucas, “Tropical Forest Biomass Density Estimation using JERS-1 SAR: Seasonal Variarion, Confidence Limits, and Application to Image Mosaics”, Remote Sensing Environment, Vol. 63, No. 2, pp. 126~139, 1998.