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High-resolution imaging method and system for fenlcs high squint in subduction section based on sphere model

An imaging method and subduction segment technology, which are applied in the field of signal processing, can solve the problems that the processing accuracy cannot reach high-resolution imaging, difficult problems, etc., and achieve the effects of improving the processing accuracy, improving the focusing effect, and removing the balance.

Active Publication Date: 2021-12-10
HANGZHOU DIANZI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Under this condition, the spatial oblique angle changes in two dimensions, which brings difficulties to RCM correction in the range direction and Doppler parameter equalization in the azimuth direction.
Moreover, the traditional method only makes a first-order approximation to the analytical formula of the spatial variation relationship of point targets after linear range walk correction (LRWC), and the processing accuracy cannot meet the requirements of high-resolution imaging

Method used

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  • High-resolution imaging method and system for fenlcs high squint in subduction section based on sphere model
  • High-resolution imaging method and system for fenlcs high squint in subduction section based on sphere model
  • High-resolution imaging method and system for fenlcs high squint in subduction section based on sphere model

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Embodiment 1

[0043] This embodiment provides a high-resolution imaging method of FENLCS high squint in the subduction section based on the sphere model, such as Figure 1-2 shown, including:

[0044] S11. Construct the geometric configuration of the SAR imaging in the subduction section of the maneuvering platform, and analyze the echo characteristics of the geometric configuration and the spatial variation characteristics of the spatial oblique angle of view;

[0045] S12. Perform range-wise processing on the echo signal;

[0046] S13. Constructing an equidistant sphere analytical model, and utilizing the residual high-order RCMC method of azimuth space variation to improve the accuracy of the range-wise processing;

[0047] S14. Based on the constructed equidistant sphere analytical model, remodel the Doppler phase of azimuth space variation, use the FENLCS method to remove the Doppler center frequency, realize the balance of Doppler modulation frequency and azimuth, and then perform az...

Embodiment 2

[0165] The difference between the high-resolution high-resolution imaging method of FENLCS in the subduction section based on the sphere model disclosed in this embodiment and the first embodiment is that:

[0166] figure 2 is the geometric configuration of the SAR in the dive segment of the maneuvering platform, in which the radar platform performs a curved acceleration motion along the LMN trajectory. In this dive imaging configuration, the radar platform performs a curved dive motion under the influence of acceleration, and the instantaneous three-dimensional velocity and three-dimensional acceleration of the radar platform are v and a respectively. Slow time t in azimuth a = 0 moment, the motorized platform is located at point L, and its height is h 0 , the center of the beam just irradiates the center point P of the scene 0 , the central slope distance is r c0 , point P 0 The distance from the projection on the ground to the Y axis is r g .

[0167] Table 2 shows ...

Embodiment 3

[0180] This embodiment provides a FENLCS high-squint high-resolution imaging system based on a sphere model, including:

[0181] The first building block is used to construct the geometric configuration of the SAR imaging in the subduction section of the maneuvering platform, and analyze the echo characteristics of the geometric configuration and the spatial variation characteristics of the spatial oblique angle of view;

[0182] a first processing module, configured to perform range-wise processing on the echo signal;

[0183] The second building block is used to construct an equidistant sphere analytical model, and utilizes a residual high-order RCMC method of azimuth space variation to improve the accuracy of the range-wise processing;

[0184] The second processing module is used to remodel the Doppler phase of azimuth space variation based on the equidistant sphere analytical model, use the FENLCS method to remove the Doppler center frequency, realize the balance of Doppl...

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Abstract

The invention discloses a high-squint high-resolution imaging method and system for a FENLCS subduction section based on a sphere model. The FENLCS high-resolution high-resolution imaging method of FENLCS in the subduction section based on the sphere model involved in the present invention includes: S11. Construct the geometric configuration of the SAR imaging in the subduction section of the maneuvering platform, and analyze the echo characteristics of the geometric configuration and the spatial oblique angle of view. Space-variant characteristics; S12. Perform range-wise processing on the echo signal; S13. Construct an equidistant sphere analytical model, and use the residual high-order RCMC method of azimuth space-variation to improve the accuracy of the range-wise processing; S14. Based on the constructed etc. The azimuth space-varying Doppler phase is remodeled by the distance sphere analytical model, and the Doppler center frequency is removed by FENLCS method to achieve the balance of the Doppler modulation frequency and azimuth, and then the azimuth compression is performed to obtain the final focused image.

Description

technical field [0001] The invention relates to the technical field of signal processing, in particular to a method and system for high-squint high-resolution imaging of FENLCS in a subduction section based on a sphere model. Background technique [0002] With its all-weather, all-weather, high-resolution imaging advantages, SAR has made the research of mobile platform SAR imaging technology combined with missiles, drones, helicopters and other high-speed mobile platforms has become a research hotspot today. Due to the flexible and changeable flight trajectory of the maneuvering platform, the SAR imaging process of the maneuvering platform can generally be divided into two stages: straight line and constant speed flight and curved acceleration dive according to the different flight states of the platform. When the maneuvering platform is in the dive mode, the signal echo characteristics are more complicated than those in the general level flight configuration, and the tradit...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01S13/90
Inventor 钟华刘静赵荣华李世平王梦圆叶宗奇
Owner HANGZHOU DIANZI UNIV
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