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Three-Dimensional ISAR Imaging Method for High-Speed Targets in Short-Range Using Impulse Radar Based on SIMO Array.

Xinpeng Zhou1,2, Guohua Wei3,4, Siliang Wu5,6

  • 1School of Information and Electronics, Beijing Institute of Technology, Beijing 100081, China. xinpeng_780304@163.com.

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|March 16, 2016
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Summary
This summary is machine-generated.

This study introduces a 3D inverse synthetic aperture radar (ISAR) imaging technique for high-speed targets using impulse radar. The method enhances missile motion parameter estimation and overcomes limitations in conventional translational compensation.

Keywords:
inverse synthetic aperture radar (ISAR)radar imagingrotation angle estimationtranslational compensation

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Area of Science:

  • Radar Systems Engineering
  • Electromagnetics and Wave Propagation
  • Target Tracking and Imaging

Background:

  • High-speed target imaging in short-range presents challenges for traditional radar methods.
  • Accurate motion parameter estimation is crucial for effective Inverse Synthetic Aperture Radar (ISAR) imaging.
  • Conventional translational compensation techniques have limitations in complex motion scenarios.

Purpose of the Study:

  • To propose a novel 3D ISAR imaging method for high-speed targets using impulse radar.
  • To develop an advanced missile motion parameter estimation technique tailored for short-range impulse radar applications.
  • To overcome the shortcomings of existing translational compensation methods in ISAR imaging.

Main Methods:

  • Establishment of a Single-Input Multiple-Output (SIMO) antenna array configuration.
  • Development of a missile motion parameter estimation algorithm based on impulse radar data.
  • Derivation of receiving antenna position and time delay post-translational compensation by analyzing scattering center motion geometry.
  • Estimation of missile rotation angle and rotation matrix through a newly established coordinate system.

Main Results:

  • Successful derivation of key parameters for improved translational compensation.
  • Accurate estimation of missile motion parameters, including rotation.
  • Validation of the proposed 3D ISAR imaging method's performance through simulations.
  • Demonstration of overcoming limitations in conventional translational compensation.

Conclusions:

  • The proposed 3D ISAR imaging method effectively images high-speed targets in short-range using impulse radar.
  • The developed motion parameter estimation technique enhances accuracy and addresses limitations of prior methods.
  • Simulation results confirm the algorithm's capability in complex missile motion scenarios.