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Related motion error compensation method based on BiSAR echoing, system and application

A motion error and compensation method technology, applied in radio wave measurement systems, radio wave reflection/re-radiation, utilization of re-radiation, etc. question

Active Publication Date: 2020-07-24
NANCHANG UNIV
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Problems solved by technology

[0006] (1) In airborne BiSAR, unknown motion errors will be introduced due to factors such as airflow and the instability of the carrier platform, which seriously affect the focusing quality of BiSAR imaging
[0007] (2) For the problem of motion errors, high-precision inertial navigation equipment can be equipped to measure motion errors and perform error compensation. However, high-precision inertial navigation equipment is expensive, bulky, and even restricted by imports. Therefore, it is difficult for the existing BiSAR system to be equipped with high-precision High-precision inertial navigation equipment, it is difficult to use measurement methods to compensate for errors
[0008] (3) Compared with the traditional frequency-domain imaging algorithm, the time-domain fast imaging algorithm has more advantages in processing BiSAR, and the existing self-focus error algorithm is usually combined with frequency-domain imaging processing, which is difficult to process in time-domain fast imaging processing. application

Method used

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  • Related motion error compensation method based on BiSAR echoing, system and application
  • Related motion error compensation method based on BiSAR echoing, system and application
  • Related motion error compensation method based on BiSAR echoing, system and application

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Embodiment

[0129] figure 2 It is the principle of the arbitrary configuration bistatic SAR combined self-focus error compensation method under the framework of the rapid decomposition back-projection imaging algorithm provided by the embodiment of the present invention. Specifically include:

[0130] Step 1, establish a signal model, project the original echo signal to the polar coordinate grid, and then perform azimuth FFT to obtain the image signal in the range compression domain-azimuth frequency domain, and at the same time, obtain the image spectrum in polar coordinates based on wave number vector decomposition parse representation.

[0131] Step 2: Find the correlation between APE and NsRCM by using the above spectral analysis representation, first use weighted phase gradient autofocusing (WPGA) to preliminarily estimate APE, and then compensate APE and NsRCM at the same time.

[0132] Step 3: After compensating NsRCM, perform APE fine estimation and APE fine compensation, and t...

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Abstract

The invention belongs to the technical field of radar imaging and discloses a related motion error compensation method based on BiSAR echoing, a system and application. Through BiSAR signal modeling and wave number vector decomposition, image spectrum analytical expression under polar coordinates is obtained, and a correlation between a phase error caused by a motion error and non-systematic distance unit migration is found; and a phase error is roughly estimated by methods of combined estimation and compensation. FFBP imaging treatment is conducted on an echoing signal, so that an SAR image under the polar coordinates before error compensation is obtained; the image is converted to a distance compression-orientation frequency domain, and rough estimation of a phase error thereof is conducted, so that the rough phase error is obtained; and NsRCM is compensated with the phase error obtained by rough estimation, and then phase error fine estimation and fine compensation are carried out,so that image focusing quality is finally improved. The method, system and application disclosed by the invention greatly reduce dependence on a high-precision inertial navigation measurement system and have high processing efficiency and engineering practicability.

Description

technical field [0001] The invention belongs to the technical field of radar imaging, and in particular relates to an echo-based BiSAR correlation motion error compensation method, system and application under a Fastfactorized back projection (FFBP) processing framework. Background technique [0002] Synthetic aperture radar (SAR) has the characteristics of all-weather, all-time and long-range effects, and has a wide range of applications in military and civilian fields such as missile guidance, earth observation, disaster monitoring and environmental protection, while bistatic SAR The configuration of (bistatic SAR, BiSAR) is more flexible, and it can obtain richer target scattering information. In addition, due to the concealed characteristics of its receiving station, it can greatly improve its survivability on the battlefield. Therefore, BiSAR has been widely used. Attention, the research on BiSAR has also been a hot spot in recent years. [0003] However, compared with...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S13/90G01S7/41G01S7/295
CPCG01S13/9011G01S7/415G01S7/295G01S7/356G01S13/9058G01S13/9017
Inventor 周松王庆庆包敏杨磊
Owner NANCHANG UNIV
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