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常规DInSAR技术中,时空失相关及大气延迟等因素的影响限制了相位解缠结果的精度。永久散射体(PS)InSAR方法间接克服了常规雷达干涉中的时空失相关问题,单独对PS这种高相干目标进行相位解缠可以避免失相关噪声对解缠结果的影响。本文在已有相位解缠方法的基础上,提出基于最小二乘的稀疏PS点相位解缠方法,陈述了相应的建模思想及相关数据处理方法;分别基于模拟数据和真实数据(日本ALOS卫星获取的PALSAR L波段数据)对所提方法进行了实验验证。结果表明,该方法能够有效地对PS数据集进行相位解缠。 相似文献
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以四川省茂县、安县地区的ALOS PALSAR L波段雷达影像为数据源,在对地形复杂区的配准、解缠等算法研究的基础上,结合SAR特有的成像几何结构,对两幅SAR图像进行快速自动配准,配准误差小于0.2个像元;在去除平地引起的干涉相位变化后,运用MCF对缠绕相位进行解缠,在此基础上提取研究区的数字高程模型(DEM),分析发现精度受多种因素影响,其中波长较长的L波段数据比波长较短的时间相关性好,此外为消除大气效应,采用改进的相位累积法去除大气的影响,在一定程度上提高DEM精度。其误差范围在±10m左右,对快速提取地形信息具有一定的借鉴意义。 相似文献
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将卫星雷达遥感应用于滑坡灾害的探测与监测,不仅可以从空间尺度上大范围捕捉到滑坡信号,而且可以从时间尺度上以较长周期追踪滑坡的运动状态。但是,卫星雷达遥感本身的局限性和滑坡所处的复杂地形环境使这一应用面临一些挑战。对卫星雷达遥感技术的4个主要挑战进行了总结与分析,同时给出了相应的解决方案:①通过提高卫星雷达影像的空间、时间分辨率,使用较长波段雷达信号或采用增强型时间序列分析技术,可降低密集植被覆盖对相干性的影响。另外,采用像素点偏移量追踪或距离向分频干涉测量方法,可克服传统干涉测量中大梯度形变引起的相位失相干。②大气延迟对卫星遥感的影响较大,尤其是地处山区的滑坡探测和监测,利用通用型卫星雷达大气改正系统可显著减弱干涉影像的大气信号并进一步简化时间序列分析,提高缓慢运动滑坡的探测和监测质量。③对于中等分辨率的雷达影像而言,利用数字高程模型可提前量化分析雷达几何畸变(如叠掩、阴影等)引发的滑坡探测监测的适用性;而对于高分辨率的雷达影像而言,利用机器学习方法无需外部高分辨率数字高程模型即可精确识别雷达影像的阴影和叠掩区并进行掩膜,从而大幅度提高数据处理效率。④针对高坡度地区残余的地形相位引起的解缠误差,可通过基线线性组合的方法予以减弱。此外,提出了一个基于多源对地观测的滑坡探测/监测系统框架,综合卫星雷达遥感与其他对地观测数据(如地基雷达、激光雷达、全球导航定位系统),搭建了一个自动化滑坡探测与监测系统。该研究旨在阐明卫星雷达遥感的优缺点,进一步深化其在滑坡灾害监测方面的应用和推广,引出未来侧重发展方向的思考与探讨。 相似文献
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大跨度桥梁,其变形受风力、温度、车辆等因素的影响,其变化往往达到数十厘米或者更高。这使得利用雷达干涉技术监测其变形存在相位模糊度的问题。子带干涉技术可将距离向宽带频谱分解成两个甚至多个频带,然后进行干涉处理。该技术可以使雷达波长放大10~100倍,从而为m级的变形监测成为可能。详细介绍了子带干涉技术原理和处理方法,通过分别对风力和温度影响下的青马大桥子带干涉结果进行分析,验证子带干涉技术无需进行相位解缠处理在监测大型人工建筑物形变方面的可靠性和优势。 相似文献
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Phase unwrapping is a key problem not only in all quantitative applications of synthetic aperture radar (SAR) interferometry but also in other fields. In this letter, a new phase unwrapping approach is investigated. Our study is based on the model of the optimum data vector. In order to autocoregister the SAR images, the proposed method takes advantage of the multibaseline optimal weighted joint data vector by extracting all the coherence information available in the neighboring pixels. Moreover, the method employs the projection of the joint signal subspace onto the corresponding noise subspace to estimate the unwrapped interferometric phases (or the terrain heights). The proposed method can accurately determine the dimensions of the noise subspace and provide the robust unwrapped interferometric phases even in the presence of the large image coregistration errors. Moreover, the multibaseline processing idea is a combination of data optimization, image coregistration, interferogram filtering, and phase unwrapping. 相似文献
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随着合成孔径雷达(SAR)卫星的不断发射,合成孔径雷达干涉测量技术(interferometric synthetic aperture radar,InSAR)得到前所未有的发展机遇,同时也面临诸多挑战。本文首先简要介绍了SAR卫星发展现状与InSAR技术的基本原理,并系统梳理了干涉图堆叠(InSAR stacking)、小基线集干涉测量(small baseline subset InSAR,SBAS-InSAR)、永久散射体干涉测量(persistent scatterer InSAR,PS-InSAR)、分布式散射体干涉测量(distributed scatterer InSAR,DS-InSAR)和分频干涉测量(split-bandwidth interferometry,SBI)等先进InSAR技术的优缺点。在此基础上,指出目前InSAR技术面临的主要挑战(相位失相干、大气延迟、相位解缠、几何畸变和多维变形测量)及相应的解决方案。进一步从地震、火山、滑坡、地面沉降、冰川运动、人工建构筑物位移变形及大气水汽含量估计等不同的应用场景分析了InSAR技术的应用现状和存在的缺陷。最后,展望目前InSAR的发展趋势,随着更高空间分辨率,更高时间分辨率,更轻小化SAR卫星的不断发展,InSAR技术将会被应用到越来越多的新场景,激励我国雷达影像干涉测量更快发展。 相似文献
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地表形变D-InSAR监测方法及关键问题分析 总被引:2,自引:0,他引:2
总结和分析了地表形变D-InSAR监测的主要方法和当前所面临的主要问题。针对常规D-InSAR技术中大气相位和低相干区域相
位解缠,分别介绍了基于Delaunay三角网的不规则格网解缠方法、累积干涉纹图处理方法(Stacking Interferograms)、永久性
散射体(PS)技术以及角反射器干涉测量(CR-InSAR)方法,分析了各自的适用条件和优缺点。此外,对有限数据量条件下低相干
区域大气相位校正、相干目标识别等问题进行了重点讨论。立足于工程应用需要,分别对D-InSAR测量地表形变的参数选择、测量
结果的精度验证、D-InSAR测量值与形变的关系、大区域处理以及形变场时空演变等问题进行了分析和讨论。 相似文献
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利用星载重复轨道合成孔径雷达干涉测量InSAR技术获取数字高程模型(DEM),无法避免大气延迟效应的影响。InSAR大气校正的方法很多,但在DEM获取方面的大气校正研究却非常少见。本文研究星载重轨InSAR生产DEM时利用大气数值模式WRF(Weather Research and Forecasting model)得到的水汽结果进行大气校正的问题,重点讨论大气校正的策略,包括WRF模式设置和大气校正时机的选择,简要介绍了基于WRF运算结果的大气校正方法。利用Terra SAR-X数据进行实验,检验了所提出方法的有效性,证明了在干涉相位解缠前进行大气校正,比在相位解缠后进行的效果更好。将所提出方法应用于多基线、多波段InSAR干涉结果融合中,实验结果表明大气校正能够有效降低误差,对于相干性较高的地区效果更好。 相似文献
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This paper reviews the advanced differential interferometry synthetic aperture radar (A-DInSAR) techniques, with two major components in focus. First is the basic concepts, synthetic aperture radar (SAR) data sources and the different algorithms documented in the literature, primarily focusing on persistent scatterers. In the second part, the techniques are compared in order to establish more linkage in terms of the variability of their applications, strength and validation of the interpreted results. Also, current issues in sensor and algorithm development are discussed. The study identified six existing A-DInSAR algorithms used for monitoring various deformation types. Generally, reports of their performance indicate that all the techniques are capable of measuring deformation phenomena at varying spatial resolution with high level of accuracy. However, their usability in suburban and vegetated areas yields poor results, compared to urbanized areas, due to inadequate permanent features that could provide sufficient coherent point targets. Meanwhile, there is continuous development in sensors and algorithms to expand the applicability domain of the technology for a wide range of deformable surfaces and displacement patterns with higher precision. On the sensor side, most of the latest SAR sensors employ longer wavelength (X and P bands) to increase the penetrating power of the signal and two other sensors (ALOS-2 PALSA-2 and SENTINEL-1) are scheduled to be launched in 2013. Researchers are investigating the possibility of using single-pass sensors with different look angles for SAR data collection. With these, it is expected that more data will be available for various applications. Algorithms such as corner reflector interferometry SAR, along track interferometry, liqui-InSAR, and squeeSAR are emerging to increase reliable estimation of deformation from different surfaces. 相似文献
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三维相位解缠是时序干涉合成孔径雷达(interferometric synthetic aperture radar,InSAR)技术的关键环节之一,解缠结果直接影响时序InSAR地面沉降监测的精度。针对地面沉降严重、地形坡度变化较大的区域,因相位欠采样引起的整周期解缠误差问题,提出了一种基于频域置信度的加权最小二乘相位解缠算法,并以此替代时空三维相位解缠中空间维以相位梯度为权重的加权最小二乘相位解缠算法。通过提高相位坡度变化估计的准确性,进而提高时空三维相位解缠的精度和稳定性。以北京地区地面沉降监测为例进行了验证,结果表明,与经典的时空三维相位解缠算法相比,改进算法得到的沉降监测结果精度更高,特别是对于坡度变化较大、失相干现象明显的沉降漏斗区,其沉降监测精度有明显改善。 相似文献
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针对已有统计模型无法精确刻画高分辨率SAR(Synthetic Aperture Radar合成孔径雷达)图像的统计特征的问题,本文提出一种基于乘积模型的统计模型称为混合Gamma拖尾Rayleigh分布模型。在该模型中,我们利用拖尾Rayleigh分布对相干斑进行建模,使模型可以精确拟合高分辨率SAR图像相干斑的尖峰和厚尾的特征;同时我们引入混合Gamma分布对高分辨SAR图像RCS(Radar Cross Section雷达散射截面积)复杂起伏特性进行表征。基于梅林变换,我们推导出混合Gamma拖尾Rayleigh分布对数累计量参数估计公式,提高参数估计精度,从而实现对高分辨率SAR图像的精确建模。最后我们通过真实SAR图像对本文提出的模型与已有模型进行比较。试验结果表明,本文提出的模型能够对不同的高分辨率SAR图像进行统计建模,并且具有较高的拟合精度。 相似文献
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Efficient synthetic aperture radar (SAR) processing algorithms are unable to exactly implement the aperture- and topography-dependent motion compensation due to the superposition of the synthetic apertures of several targets having different motion errors and potentially different topographic heights. Thus, during motion compensation, a reference level is assumed, resulting in residual phase errors that impact the focusing, geometric fidelity, and phase accuracy of the processed SAR images. This letter proposes a new short fast Fourier transform-based postprocessing methodology capable of efficient and precise compensation of these topography- and aperture-dependent residual phase errors. In addition to wide beamwidth (very high resolution) SAR systems, airborne repeat-pass interferometry especially benefits from this approach, as motion compensation can be significantly improved, especially in areas with high topographic changes. Repeat-pass interferometric data of the E-SAR system of the German Aerospace Center (DLR) are used to demonstrate the performance of the proposed approach. 相似文献
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PS-InSAR技术地面沉降研究与展望 总被引:2,自引:2,他引:0
近年来,合成孔径雷达差分干涉测量(D-InSAR)技术在许多领域取得了良好的应用成果,但D-In-SAR确受时间失相干因素影响很大,同时大气效应也会影响D-InSAR的测量精度。1999年Ferrettit提出了永久散射体技术(Perm anent Scatterer,PS),它通过识别SAR图像中的永久散射体,消除大气影响,充分利用长基线距的干涉图像对,最大限度地提高数据的利用率,能取得毫米级的地表形变测量精度,因而大大增强了干涉测量的环境适应能力及其精度。本文着重介绍了PS技术原理,对其与D-InSAR相互关系进行了讨论,最后在地面沉降监测等领域开展这项研究潜力进行了展望。 相似文献
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Carlos López-Martínez Xavier FàbregasLuca Pipia 《ISPRS Journal of Photogrammetry and Remote Sensing》2011,66(5):597-607
This paper addresses the problem of speckle noise on single baseline polarimetric SAR interferometry (Pol-InSAR) on the basis of the multiplicative-additive speckle noise model. Considering this speckle noise model, a novel filtering technique is defined and studied in terms of simulated and experimental Pol-InSAR data. As demonstrated, the use of the multiplicative-additive speckle noise model does not lead to a corruption of the useful information but to an improvement of its estimation. The performance of the algorithm is analyzed in terms of the physical parameters retrieved from the filtered data, that in this work correspond to the forest height and the ground phase. In case of experimental data, the retrieved forest height is compared and validated against Lidar ground truth measurements. 相似文献
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Shiqi Huang Xinhua CaiShunxiang Chen Daizhi Liu 《International Journal of Applied Earth Observation and Geoinformation》2011
The interaction is quite complex between a ground object and an electromagnetic wave transmitted by synthetic aperture radar (SAR). In a ground resolution cell illuminated by a radar beam, there are many chaotic scatterers and the whole scattering echo has the chaotic characteristics which is usually described with the fractal theory, and the fractal dimension can be used to detect the change information for multitemporal SAR images. In order to improve the change detection effect with fractal model, this paper proposes a new multitemporal SAR image change detection algorithm based on the fractal model and wavelet transform (called FMWT algorithm). The FMWT algorithm has two advantages. One is insensitive to speckle noise; the other is that the change detection accuracy is improved, comparing with a general fractal change detection (GFCD) algorithm. Since the FMWT algorithm adopts the two-dimensional discrete stationary wavelet transform (TDDSWT) technique, it can obtain different direction sub-images and avoid down-sampling of the discrete wavelet transform (DWT). In the paper, not only the simulative data test has been carried out, but also the real natural disaster SAR images have been checked. Experimental results verify that the FMWT algorithm is feasible for multitemporal SAR image change detection, it is not sensitive to speckle noise of SAR images, and the performance of it is better than that of the GFCD algorithm. At the same time, the size of a sliding window will bring some affection in counting fractal dimensions. 相似文献
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Using the phase differences between satellite radar images recorded before and after an earthquake, interferometry allows mapping the projection along the line of sight (LOS) of the ground displacement. Acquisitions along multiple LOS theoretically allow deriving the complete deformation vector; however, due to the orbit inclination of current radar satellites, precision is poor in the north-south direction. Moreover, large deformation gradients (e.g., fault ruptures) prevent phase identification and unwrapping and cannot be measured directly by interferometry. Subpixel correlation techniques using the amplitude of the radar images allow measuring such gradients, both in slant-range and in azimuth. In this letter, we use a correlation technique based on the maximization of coherence for a radar pair in interferometric conditions, using the complex nature of the data. In the case of highly coherent areas, this technique allows estimating the relative distortion between images. Applied to ASAR images acquired before and after the December 26, 2003 Bam earthquake (Iran), we show that the near-field information retrieved by this technique is useful to constrain geophysical models. In particular, we confirm that the major gradients of ground displacement do not occur across the known fault scarp but approximately 3 km west of it, and we also estimate directly the amplitude of right lateral slip, while retrieving this value from interferometry requires passing through the use of a model for the earthquake fault and slip. 相似文献