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机载MIMO-SAR线性阵列天线配置研究 被引量:3

A Study on Airborne MIMO-SAR Linear Array Antenna Configuration
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摘要 等效相位中心原理的应用为多发多收合成孔径雷达(MIMO-SAR)的天线设计提供了更大的自由度。文中阐述了等效相位中心原理,分析了传统ARTINO天线配置,指出由于其发射阵元布设于机翼处而剧烈抖动造成图像模糊的问题。然后,对传统ARTINO天线结构进行了改进,并提出了发射居中紧凑和接收居中紧凑2种天线构形。最后,对4种天线构形的方向图进行了仿真。结果表明,MIMO-SAR采用等效相位中心原理进行天线结构配置,可以在保证天线方向图具有良好指向性的同时,提高天线配置的灵活性并降低成本。 The application of the effective phase center (EPC) principle provides a more freedom of degree for antenna configura- tion of multi-input multi-output SAR(MIMO-SAR). EPC principle is expatiated. Traditional ARTINO antenna configuration is analyzed. The transmitting elements are violent vibrating for locating at the wing tips, which blurs the image. Then, antenna array is ameliorated for the traditional ARTINO. Center-transmitter collocated model and center-receiver collocated model are pat forward, Finally, antenna pattern of the above models is simulated. The simulation results indicated that MIMO SAR antenna configuration design using EPC principle could ensure the favorable pattern directionality, and improve the design flexibility of the antenna geometry and reducing cost.
作者 李云涛 陈永光 邓云凯 尹灿斌
机构地区 装备学院光电装备系 军械工程学院 中国科学院电子学研究所
出处 《现代雷达》 CSCD 北大核心 2012年第2期4-7,共4页 Modern Radar
基金 国家863高技术研究发展计划资助项目
关键词 多发多收合成孔径雷达 等效相位中心 天线配置 方向图 MIMO-SAR effective phase center antenna configuration pattern
分类号 TN958 [电子电信—信号与信息处理]
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参考文献8

  • 1Gebert N, Krieger G, Younis M. Digital beamforming on receive: techniques and optimization strategies for high-resolution wide-swath SAR imaging [ J ]. IEEE Transactions on Aerospace and Electronic Systems, 2009,45 (2) : 564-592.
  • 2Ender J H G, Klare J. System architectures and algorithms for radar imaging by MIMO-SAR[ C]// 2009 IEEE Radar Conference Pasadena, USA: IEEE Press, 2009.
  • 3Klare J. Digital beamforming for a 3D MIMO SAR-improvements through frequency and waveform diversity[ C]//2008 IEEE International Geoscience and Remote Sensing Symposium. Boston, USA: IEEE Press, 2008: 17-20.
  • 4Li J, Zheng X, Stoica P. MIMO SAR imaging: signal synthesis and receiver design[ C]//2nd IEEE International Workshop on Computational Advances in Multi-sensor Adaptive Processing. St. Thomas, VI: IEEE Press, 2007: 89-92.
  • 5Klare J, Peters O, Brenner A R, et al. ARTINO: a new high resolution 3D imaging radar system on an autonomous airborne platform [ C ] // 2006 IEEE International Geoscience and Remote Sensing Symposium. Denver, Colorardo, USA : IEEE Press, 2006 : 3842-3845.
  • 6Klare J, Delphine Cerutti-Maori, Brenner A, et al. Image quality analysis of the vibrating sparse MIMO antenna array of the airborne 3D imaging radar ARTINO[ C]//2007 IEEE International Geoscience and Remote Sensing Symposium. Barcelona, Spain: IEEE Press, 2007.
  • 7Klare J, Saalmann O. MIRA-CLE X: anew imaging MIMO- radar for multi-purpose applications[ C ]/! 7th European Radar Conference. Paris, France: IEEE Press, 2010: 129- 152.
  • 8Xie Wencheng, Zhang Xiaoling, Shi Jun. MIMO antenna array design for airborne down-looking 3D Imaging SAR [ C ]//2nd International Conference on Signal Processing Systems. Dalian, China: IEEE Press, 2010.

同被引文献19

引证文献3

二级引证文献7

现代雷达
2012年 第2期

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