利用多基线数据融合提高分布式卫星InSAR系统的干涉相位精度被引量：9

Improving the Interferometric Phase Accuracy of Distributed Satellites InSAR System with Multibaseline Data Fusion

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摘要分布式卫星干涉合成孔径雷达(InSAR)系统可以通过提供长基线来提高测高灵敏度,但长基线会给干涉相位展开带来困难。结合分布式卫星InSAR系统可以同时提供多个稳定基线的特点,该文提出利用多基线数据融合的方法来解决长基线给干涉相位展开带来的困难。文中采用了有效的数据融合方法——最大似然估计(ML)法,对多基线分布式卫星InSAR系统的干涉相位进行了估计。模拟结果表明,经过多基线数据融合的干涉相位展开精度要远远大于长基线干涉相位的直接展开精度。 Distributed satellites lnterferometric Synthetic Aperture Radar （InSAR） can provide large baseline, by which the sensitivity to topography measure can be improved. But large baseline arises the difficulty in phase unwrapping procedures. Combined the characteristic of multibaseline of distributed satellites InSAR system, a method that utilizes the multibaseline data fusion is proposed to solve the problem of phase unwrapping brought by large baseline in this paper. Maximum likelihood （ML） method that is an effective two-baseline data fusion algorithm is adopted to estimate interferometric phase of distributed satellites InSAR system. The simulation results show that the phase unwrapping accuracy via multibaseline data fusion is higher than that of direct phase unwrapping of large baseline interferometric phase.

作者张秋玲王岩飞

机构地区中国科学院电子学研究所

出处《电子与信息学报》 EI CSCD 北大核心 2006年第11期2011-2014,共4页 Journal of Electronics & Information Technology

关键词分布式卫星干涉合成孔径雷达(InSAR) 多基线数据融合干涉相位 Distributed satellites, lnterferometric Synthetic Aperture Radar （InSAR）, Multibaseline data fusion, lnterferometric phase

分类号 TN959.74 [电子电信—信号与信息处理]

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参考文献7

1Madsen S N,Zebker H A.Automated Absolute Phase Retrieval in Across-track Interferometry.IGARSS'92,Houston,TX,May 1992:1582-1584.
2Lombardini F.Absolute Phase Retrieval in a Three-element Synthetic Aperture Radar Interferometer.Proc.1996 CIE International Conference of Radar,Beijing,China,8th-10th October 1996:309-312.
3Ghiglia D C,Wahl D E.Interferometric Synthetic Aperture Radar Terrain Elevation Mapping from Multiple Observations.IEEE Digital Signal Processing Workshop,1994:33-36.
4Corsini G,Diani M,Lombardini F,Pinelli G.Simulated analysis and optimization of a three-antenna airborne InSAR system for topographic mapping.IEEE Trans.Geosci.Remote Sensing,1999,37(5):2518-2529.
5林来兴.微小卫星分布式飞行组成虚拟卫星研究.微小卫星分布式飞行及应用论文集.北京:国家高技术航天领域专家委员会微小卫星技术组,2000:1-35.
6Massonnet D.Capabilities and limitations of the interferometric cartwheel.IEEE Trans.Geosci.Remote Sensing,2001,39(3):506-520.
7Xu W,Cumming I.A region-growing algorithm for InSAR phase unwrapping.IEEE Trans.Geosci.Remote Sensing,1999,37(1):124-134.

同被引文献90

1吴一戎,洪文,王彦平.极化干涉SAR的研究现状与启示[J].电子与信息学报,2007,29(5):1258-1262. 被引量：53
2THOMPSON D G, ROBERTSON A E, ARNOLD I) V, et al. Multi-baseline Interferometric SAR for Iterative Height Estimation[C]//IGARSS' 99 Proceedings: IEEE 1999 International Geoscience and Remote Sensing Sympo- sium: 1. Hamburg: IEEE, 1999:251-253.
3XIE Xianming, PI Yiming. Multi-baseline Phase Unwrap- ping Algorithm Based on the Unscented Kalman Filter[J]. IET Radar, Sonar & Navigation, 2011, 5(3): 296-304.
4SHIX J, ZHAN Y H. A Multi-baseline Data Fusion Algorithm for Distributed Satellites SAR Interferometry by Combining Iterative and Maximum-likelihood Methods[C]//Proceedings of 2009 Asia-Pacific Conference on Syn- thetic Aperture Radar(APSAR'09). Xi' an: [s. n.], 2009: 165-168.
5XU W, CHANG E C, KWOH L K, et al. Phase Unwrapping of SAR Interferogram with Multi-frequency or Multi-baseline[C] // 1994 Remote Sensing Symposium Is. n. ], 1994: 730-732.
6International Geoscience and (IGARSS' 94). Piscataway: GHIGLIA D C, WAHL D E. Interferometric Synthetic Aperture Radar Terrain Elevation Mapping from Multiple Observations[C]ffProeeedings of 6th IEEE Digital Signal Processing Workshop. Yosemite National Park: [s. n. ], 1994: 33-36.
7KIM M G, GRIFFITHS H D. Phase Unwrapping of Multi- baseline Interferometry Using Kalman Filtering [J]. Seventh International Conference on Image Processing and Its Applications. Manchester: IEEE, 1999: 813-817.
8LI Z F, BAO Z. A Joint Image Coregistration, Phase Noise Suppression, and Phase Unwrapping Method Based on Subspace Proiection for Multi-baseline InSAR Systems [J]. IEEE Transactions on Geoscienee and Remote Sensing, 2007, 45(3): 584 591.
9LACHAISE M, EINEDER M, FRITZ T. Multi BaselineSAR Acquisition Concepts and Phase Unwrapping Algorithms for the TanDEM-X Mission[C]//2007 Inter- national Geoscience and Remote Sensing Symposium (IGARSS'07), Barcelona: [s. n.], 2007: 5272-5276.
10GOLDSTEIN R M, ZERBER H A, WERNER C L. Satellite Radar Interferometry: Two-dimensional Phase Unwrapping[J]. Radio Science, 1988, 23 (4) :713-720.

引证文献9

1谢先明,皮亦鸣.一种基于多基线组合频率估计的相位展开方法[J].测绘学报,2012,41(1):93-99. 被引量：5
2Xianming Xie.Multi-baseline phase unwrapping algorithm for INSAR[J].Journal of Systems Engineering and Electronics,2013,24(3):417-425.
3花奋奋,张继贤,黄国满,王萌萌.面向多基线干涉SAR高程反演的改进最大似然高程估计方法[J].测绘科学,2014,39(3):13-18. 被引量：3
4谢先明.一种基于扩展卡尔曼滤波的多基线相位噪声抑制及展开方法[J].测绘科学,2015,40(2):43-47. 被引量：4
5谢先明,李莹慧.多基线合成孔径雷达干涉相位估计方法探讨[J].测绘科学,2015,40(11):43-47. 被引量：1
6花奋奋,赵争,王萌萌,张继贤,黄国满.面向多基线干涉SAR高程反演的全局最优相干方法[J].测绘学报,2015,44(11):1263-1270. 被引量：4
7谢先明.稳健的多基线SAR干涉相位估计[J].测绘科学,2015,40(12):50-54. 被引量：1
8Xianming Xie.Enhanced multi-baseline unscented Kalman filtering phase unwrapping algorithm[J].Journal of Systems Engineering and Electronics,2016,27(2):343-351. 被引量：5
9XIE Xianming,ZENG Qingning.Multi-baseline extended particle filtering phase unwrapping algorithm based on amended matrix pencil model and quantized path-following strategy[J].Journal of Systems Engineering and Electronics,2019,30(1):78-84.

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2Xianming Xie.Multi-baseline phase unwrapping algorithm for INSAR[J].Journal of Systems Engineering and Electronics,2013,24(3):417-425.
3朱建军,付海强,汪长城.InSAR林下地形测绘方法与研究进展[J].武汉大学学报（信息科学版）,2018,43(12):2030-2038. 被引量：23
4谢先明.一种基于扩展卡尔曼滤波的多基线相位噪声抑制及展开方法[J].测绘科学,2015,40(2):43-47. 被引量：4
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6谢先明.稳健的多基线SAR干涉相位估计[J].测绘科学,2015,40(12):50-54. 被引量：1
7黄文彦.面向多基线干涉SAR高程反演的全局最优相干方法[J].江西建材,2016(20):228-228.
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2张秋玲,王岩飞.分布式卫星InSAR系统的成像算法研究[J].电子与信息学报,2006,28(12):2232-2235.
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4李威,李春升,时信华,郝晓龙.分布式InSAR系统技术综述[J].上海航天,2011,28(4):38-46. 被引量：1
5邱建国.分布式卫星InSAR系统参数的优化设计[J].中北大学学报（自然科学版）,2006,27(6):528-532. 被引量：1
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利用多基线数据融合提高分布式卫星InSAR系统的干涉相位精度被引量：9

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利用多基线数据融合提高分布式卫星InSAR系统的干涉相位精度 被引量：9

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利用多基线数据融合提高分布式卫星InSAR系统的干涉相位精度被引量：9