Mining area earth surface time sequence deformation monitoring method based on time domain discrete InSAR interference pair

A time-domain discrete, interferometric pair technology, applied in measurement devices, radio wave measurement systems, radio wave reflection/re-radiation, etc., can solve the problems of demanding data requirements, inability to monitor large-scale deformation fields, and high monitoring costs

Active Publication Date: 2014-09-24
经通空间技术(河源)有限公司
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Problems solved by technology

[0004] The purpose of the present invention is to provide a time-series surface deformation monitoring method based on time-domain discrete InSAR interference pairs, which overcomes the defects of traditional time-series InSAR methods such as high monitoring cost, harsh data requirements, and inability to monitor large-scale deformation fields.

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  • Mining area earth surface time sequence deformation monitoring method based on time domain discrete InSAR interference pair
  • Mining area earth surface time sequence deformation monitoring method based on time domain discrete InSAR interference pair
  • Mining area earth surface time sequence deformation monitoring method based on time domain discrete InSAR interference pair

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[0033] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0034] Such as figure 2 Shown is a schematic flow chart of the method of the present invention, a time-series surface deformation monitoring method based on time-domain discrete InSAR interference pairs, including the following steps:

[0035] Step 1: Obtain time-domain discrete InSAR interferometric pairs that do not cover the entire SAR image timing process;

[0036] All the SAR images covering the mining area to be monitored are time-sequenced, and the differential synthetic aperture radar interferometry D-InSAR is used to perform pairwise differential interference to obtain the coherent image group and the unwrapped image group, and find out the InSAR that cannot be interfered from the coherent image group Interferometric pairs, and remove the corresponding coherent atlas and unwrapped atlases, so as to obtain time-domain discrete InSAR interferom...

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Abstract

The invention discloses a mining area earth surface time sequence deformation monitoring method based on a time domain discrete InSAR interference pair. The time domain discrete InSAR interference pair not covering the whole time sequence process is obtained; highly coherent points in the time domain discrete InSAR interference pair are obtained; a relationship equation set of mining area dynamic sedimentation model parameters and unwrapping phases of the highly coherent points in the time domain discrete InSAR interference pair is built, and dynamic sedimentation model parameters of the highly coherent points are estimated based on the equation set; the time sequence deformation of the mining area earth surface can be estimated anytime through the parameters, and therefore mining area earth surface time sequence deformation monitoring based on the time domain discrete InSAR interference pair is achieved. The mining area earth surface time sequence deformation monitoring method based on the time domain discrete InSAR interference pair achieves monitoring of the mining area earth surface time sequence deformation through the discrete InSAR interference pair not covering the time sequence process, is ingenious in concept, is simple in process, is accurate and effective in monitoring effect, largely widens the application prospects of the InSAR technology, and lowers mining area time sequence deformation monitoring cost and technical limitations.

Description

technical field [0001] The invention relates to a time-series deformation monitoring method of the surface of a mining area based on time-domain discrete InSAR interference pairs. Background technique [0002] Synthetic aperture radar interferometry (Interferometric Synthetic Aperture Radar, referred to as InSAR) is a remote sensing technology that can obtain centimeter or even millimeter-scale deformation of the ground surface. The basic principle is to extract centimeter or even millimeter-level deformation values ​​of radar line-of-sight direction from the phase difference by performing differential interference processing on two or more Synthetic Aperture Radar (SAR) satellite images. Compared with the traditional geodetic technology, InSAR has the advantages of all-weather, continuous space coverage, high precision and low cost. However, the traditional differential interferometric SAR (D-InSAR) is susceptible to spatial de-correlation, temporal de-correlation, and atm...

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Application Information

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IPC IPC(8): G01S13/90G01B15/06
CPCG01B15/06G01S13/9023
Inventor 朱建军杨泽发李志伟胡俊赵蓉杜亚男
Owner 经通空间技术(河源)有限公司
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