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InSAR deformation monitoring method based on spatial constraint

A space constraint and deformation technology, applied in the direction of measuring devices, radio wave measurement systems, radio wave reflection/reradiation, etc., can solve the problems of estimated parameter influence, undifferentiated terrain parameters and deformation parameters, estimated parameter errors, etc., to achieve The effect of improving accuracy and ensuring accuracy

Active Publication Date: 2021-06-18
TONGJI UNIV
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Problems solved by technology

Current timing techniques restore deformation information by introducing time constraints, that is, deformation model assumptions, but due to the lack of accurate prior information, the existence of model errors will have a large impact on the estimated parameters
Especially in complex deformation scenarios, the time-constrained observation model will cause serious errors in the estimated parameters and cannot correctly invert the deformation
[0005] In addition, some timing techniques solve the rank deficient equation by adding the minimum norm criterion, but this method introduces the center of gravity reference for the parameters as a whole, and does not distinguish between terrain parameters and deformation parameters. Although the equation is solvable, it has no physical meaning.

Method used

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  • InSAR deformation monitoring method based on spatial constraint
  • InSAR deformation monitoring method based on spatial constraint
  • InSAR deformation monitoring method based on spatial constraint

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Embodiment

[0084] Such as figure 1 As shown, an InSAR deformation monitoring method based on space constraints includes the following steps:

[0085] S1. Data acquisition and preprocessing. The original single-view complex images are obtained through the spaceborne radar satellite, and the external DEM is used for image registration and geocoding. Among them, after the image registration processing, all images are located in the same coordinate frame, and the geocoding is performed. The elevation information of the image can be obtained, and the specific process of image registration is as follows:

[0086] S1-1. Cutting and splicing the original image according to the scope of the monitoring area;

[0087] S1-2. Using external DEM to register images, the method based on geometric registration is independent of SAR image data, not affected by data quality, and the registration error is consistent, so the registration accuracy can be relatively high in complex terrain. Stable, registrat...

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Abstract

The invention relates to an InSAR deformation monitoring method based on spatial constraint, which comprises the following steps of: conducting data acquisition and preprocessing, namely, acquiring an original single-view complex image through a spaceborne radar satellite, and performing image registration and geocoding by using an external DEM to enable all the images to be positioned in a same coordinate framework; selecting an optimal main image from all the images under the same coordinate frame, and forming differential interference pairs by the optimal main image and other images respectively; based on the differential interference pair, selecting and obtaining high-coherence points; performing phase unwrapping processing on the high-coherence points to obtain unwrapped phases of the high-coherence points; for the unwrapping phase, inversing a deformation sequence by using spatial constraint, so as to obtain an initial deformation phase; and carrying out atmospheric error separation on the initial deformation phase to obtain a final deformation phase, namely deformation monitoring information. Compared with the prior art, the method is based on the time sequence InSAR technology, the spatial constraint is reasonably added, and the high-precision deformation sequence can be efficiently and reliably recovered.

Description

technical field [0001] The invention relates to the technical field of surface deformation monitoring, in particular to an InSAR deformation monitoring method based on space constraints. Background technique [0002] Surface deformation monitoring has always been an important part of geographic and national conditions monitoring. my country has a vast territory, complex and diverse landforms, and frequent geological disasters such as landslides, earthquakes, and debris flows; in addition, with the rapid development of society, the excessive exploitation of underground resources and underground construction etc. will cause different degrees of surface deformation. These surface deformations caused by natural disasters or human factors will cause serious harm to the social economy and people's lives. Therefore, it is very important to monitor the surface deformation efficiently and reliably. [0003] Synthetic Aperture Radar Interferometry (InSAR) is a new space geodetic techn...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S13/90G01B15/06
CPCG01S13/90G01B15/06
Inventor 李博峰柳虹宇
Owner TONGJI UNIV
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