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RANGE AMBIGUITY DISTRIBUTION CHARACTERISTIC OF SPACEBORNE SAR AND ITS DESIGN CONSIDERATION 被引量:1

RANGE AMBIGUITY DISTRIBUTION CHARACTERISTIC OF SPACEBORNE SAR AND ITS DESIGN CONSIDERATION
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摘要 A new approach is proposed which can satisfy the range ambiguity requirement while keep the antenna width not to be enlarged and get the high quality image also. Here the chirp slope of the transmitted linear frequency modulated pulses is reversed alternately. Therefore, during the range compression significant portion of the ambiguous return which is due to the mismatching with the signal reference function is suppressed. The suggested method provides significant improvement in range ambiguity ratio and can be utilized in attaining wider swath. A new approach is proposed which can satisfy the range ambiguity requirement while keep the antenna width not to be enlarged and get the high quality image also. Here the chirp slope of the transmitted linear frequency modulated pulses is reversed alternately. Therefore, during the range compression significant portion of the ambiguous return which is due to the mismatching with the signal reference function is suppressed. The suggested method provides significant improvement in range ambiguity ratio and can be utilized in attaining wider swath.
作者 荆麟角
机构地区 Institute of Electronics
出处 《Journal of Electronics(China)》 1995年第2期160-167,共8页 电子科学学刊(英文版)
关键词 SAR Range AMBIGUITY ratio(RAR) INCIDENCE angle PRF Uniform distribution COSINE weighting CHIRP SAR Range ambiguity ratio(RAR) Incidence angle PRF Uniform distribution Cosine weighting Chirp
分类号 TN958 [电子电信—信号与信息处理]
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同被引文献16

  • 1Keydel W. Perspective and visions for future SAR system[J]. IEE Proceedings of Radar Sonar and Navigation, 2003, 150(3): 97-103.
  • 2Moreira A and Krieger G. Spaceborne Synthetic Aperture Radar: state of the art and future developments[C]. Euro Microwave Conference, Munich, Germany, 2003: 104-111.
  • 3Steydkal H and Rose J F. Digital beamforming for radar systems[J]. Microwave Journal, 1989, 32(1): 121-136.
  • 4Krieger G, Younis M, Gebert N, et al.. Advanced concepts for high-resolution wide-swath SAR imaging[C]. European Conference on Synthetic Aperture Radar, Aachen, Germany,2010: 524-527.
  • 5Younis M, Huber S, Patyuchenko A, et al.. Digital beam-forming for spaceborne reflector and planar antenna SAR-a system performance comparison[C]. IEEE International Geoscience and Remote Sensing Symposium (IGARSS), Cape Town, South Africa, 2009, 3: 733-736.
  • 6Younis M, Patyuchenko A, Huber S, et al.. A concept for a high performance reflector-based X-band SAR[C]. European Conference on Synthetic Aperture Radar, Aachen, Germany, 2010: 974-977.
  • 7Feng Fan, Li Shi-qiang, and Yu Wei-dong, et al.. Echo separation in multi-dimensional waveform encoding SAR remote sensing using an advanced null-steering beamformer[J]. IEEE Transactions on Geoscience Remote Sensing, 2012, 50(10): 4157-4172.
  • 8Krieger G, Younis M, Huber S, et al.. Digital beamforming and MIMO SAR: review and new concepts[C]. 9th European Conference on SAR, Nuremberg, Germany, 2012: 11-14.
  • 9Patyuchenko A, Rommel T, Laskowski P, et al.. Digital beam-forming reconfigurable Radar System demonstrator [C]. IEEE International Geoscience and Remote Sensing Symposium (IGARSS), Munich, 2012: 1541-1544.
  • 10Feng Fan, Dang Hong-xing, Tan Xiao-min, et al.. An improved scheme of digital beam-forming in elevation for spaceborne SAR[C]. Radar Conference 2013, IET International, Xi , an, China, 2013: 1-6.

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Journal of Electronics(China)
1995年 第2期

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