Method for establishing equivalent geometric imaging model of high-resolution satellite image by using RPC parameters

A technology of geometric imaging and satellite imagery, applied in the field of remote sensing science, can solve problems such as residual errors in fitting rigorous imaging models, limited accuracy of instantaneous attitude determination, and difficulties in stereoscopic observation

Active Publication Date: 2019-11-26
WUHAN UNIV
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Problems solved by technology

However, RFM still has some defects in practical application, which are mainly reflected in the internal problems and external influences of RPC.
First of all, RPC has inherent problems such as over-parameterization, strong correlation between parameters, and residual errors in the tightly fitted imaging model; secondly, due to technical limitations such as sensors, many satellite platforms have low stability, and the accuracy of instantaneous attit

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  • Method for establishing equivalent geometric imaging model of high-resolution satellite image by using RPC parameters
  • Method for establishing equivalent geometric imaging model of high-resolution satellite image by using RPC parameters
  • Method for establishing equivalent geometric imaging model of high-resolution satellite image by using RPC parameters

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[0074] The technical solutions of the present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0075] The present invention calculates the equivalent geometric imaging model based on RPC parameters, and its process is as follows:

[0076] 1. Equivalent geometric imaging model of linear array push-broom satellite images

[0077] The Equivalent Geometric Sensor Model (EGSM) is a mathematical abstraction of the linear push-broom imaging geometry of high-resolution optical satellite images, which describes the geometric relationship between the image point coordinates and the object space coordinates of the corresponding target points. The establishment of the equivalent geometric imaging model is based on the following basic facts (mathematical assumptions):

[0078] The image corresponding to each scanning line in the satellite image is obtained by central projection;

[0079] The ideal linear array CCD pixels have the ...

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Abstract

The invention relates to a method for establishing an equivalent geometric imaging model of a high-resolution satellite image by using RPC parameters. The method comprises: selecting a random scanningline of a high-resolution satellite image and listing a collinear condition equation of a projection center, an image point and a corresponding object square point; on the basis of operating characteristics and geometric characteristics of the high-resolution satellite, abstracting three rotation angles and six orbital numbers in an equivalent principal distance, a principal point coordinate, andan offset matrix and forming 11 independent parameters of an equivalent geometric imaging model; and with RPC parameters, calculating parameters of the equivalent geometric imaging model directly. Therefore, inherent problems of the over-parameterization of the RPC, strong correlation between parameters, and residual error existence of the fitting tight imaging model are solved; the parameters have the obvious geometric and physical meanings; and modeling analysis can be carried out on various imaging error sources conveniently. The mutual conversion of RPC parameters is realized; and the positioning accuracy of high-resolution satellite image is improved.

Description

technical field [0001] The invention belongs to the field of remote sensing science and technology, and is suitable for the calculation of geometric positioning of high-resolution satellite images. The main purpose is to solve the problems of reduced geometric positioning accuracy caused by factors such as systematic errors in the rational polynomial model (RFM). A method of using rational polynomial model parameters (RPC) to establish the equivalent geometric imaging model of high-resolution satellite images is proposed, and through the equivalent geometric imaging model, parameters such as model error compensation are added to eliminate the reduction in geometric positioning accuracy caused by model errors in RFM and other issues, thereby improving the geometric positioning accuracy of high-resolution satellite images. Background technique [0002] Geometric imaging models for high-resolution satellite images are generally divided into two categories: rigorous imaging mode...

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Application Information

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IPC IPC(8): G01C11/00G06T17/10G06T19/20G06T3/40
CPCG01C11/00G06T3/4053G06T17/10G06T19/20G06T2207/10032G06T2219/2004G06T2219/2016
Inventor 曹辉李海鸿陶鹏杰
Owner WUHAN UNIV
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