Your search keyword '"Jincong Huo"' showing total 4 results

1. A Synthetic Aperture Radar Imaging Simulation Method for Sea Surface Scenes Combined with Electromagnetic Scattering Characteristics

Author

Yao He, Le Xu, Jincong Huo, Huaji Zhou, and Xiaowei Shi

Subjects

synthetic aperture radar, radar imaging, sea surface imaging, scattering properties, electromagnetic scattering, Science

Abstract

Synthetic aperture radar (SAR) simulation is a vital tool for planning SAR missions, interpreting SAR images, and extracting valuable information. SAR imaging is essential for analyzing sea scenes, and the accuracy of sea surface and scattering models is crucial for effective SAR simulations. Traditional methods typically employ empirical formulas to fit sea surface scattering, which are not closely aligned with the principles of electromagnetic scattering. This paper introduces a novel approach by constructing multiple sea surface models based on the Pierson–Moskowitz (P-M) sea spectrum, integrated with the stereo wave observation projection (SWOP) expansion function to thoroughly account for the influence of wave fluctuation characteristics on radar scattering. Utilizing the shooting and bouncing ray-physical optics (SBR-PO) method, which adheres to the principles of electromagnetic scattering, this study not only analyzes sea surface scattering characteristics under various sea conditions but also facilitates the computation of scattering coupling between multiple targets. By constructing detailed scattering distribution data, the method achieves high-precision SAR simulation results. The scattering model developed using the SBR-PO method provides a more nuanced description of sea surface scenes compared to traditional methods, achieving an optimal balance between efficiency and accuracy, thus significantly enhancing sea surface SAR imaging simulations.

Published

2024

2. An Accelerated PO for EM Scattering from Electrically Large Targets

Author

Zhanbiao Yang, Jincong Huo, Xiaowei Shi, and Le Xu

Subjects

Materials science, Em scattering, Electrical and Electronic Engineering, Molecular physics

Published

2021

3. RCS Analysis of UAV Groups

Author

Le Xu, Gejun Liu, Zhuo Chen, Xiaowei Shi, Xiaoning Yang, and Jincong Huo

Subjects

Radar cross-section, Software, FEKO, Computer science, business.industry, Position (vector), Penetration (warfare), Aerospace engineering, Modern warfare, business

Abstract

In modern warfare, electromagnetic stealth and high-tech electromagnetic warfare occupy a very important position. The radar cross section (RCS) involved in this is of great significance in electromagnetic stealth. In this paper, the radar cross section of UAV group is simulated by FEKO software, and analyze its RCS. The analysis of UAV group can provide important conclusions for stealth and penetration in modern warfare. Then by changing the spacing between the UAVs, observe the influence on the scattering pattern, and finally draw the conclusion.

Published

2019

4. A New Shooting and Bouncing Ray Method Based on Gaussian integrals and Its Application in the Electrically Large Object

Author

Jincong Huo, Xiaowei Shi, Xiaoning Yang, Zhuo Chen, Le Xu, and Zhiwei Wu

Subjects

symbols.namesake, Facet (geometry), Quadrangle, Computer science, Gaussian integral, Mathematical analysis, symbols, Object (computer science)

Abstract

A shooting and bouncing ray (SBR) method Based on Gaussian integrals is presented in this paper. For the traditional high frequency algorithm based on triangle facet modeling, gaussian integral method is one of the integration methods with higher accuracy, but it is no longer applicable to the SBR algorithm with quadrangle integration facet. In this paper, gaussian integral method is proposed to calculate SBR integral, the validation of the proposed method was verified by comparing the electrically large objects simulation results with those of the XX-MLFMM.

Published

2019