Angular resolution limits for coincidence imaging radar based on correlation theory

机译：基于相关理论的重合成像雷达角分辨率极限

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Coincidence imaging radar (CIR) can achieve super-resolution in real aperture staring radar imagery by employing temporal-spatial independent array detecting (TSIAD) signals. The characteristics of TSIAD signals are determined by the random signal waveform and the array geometry, and the imaging performance is influenced by the relative imaging position with respect to the antenna array. In this paper, the uniform spacing linear array (USLA) with the frequency random modulation (FRM) signal waveform is studied. The angular resolution limit (ARL) for the CIR system is derived based on correlation theory. The effects of the parameters on the resolution performance are investigated. Comparison of ARL between the proposed CIR system and the real aperture radar (RAR) system is presented to validate the efficiency of the CIR system.

机译：巧合成像雷达（CIR）通过使用时空独立阵列检测（TSIAD）信号，可以在实际孔径凝视雷达图像中实现超分辨率。 TSIAD信号的特性由随机信号波形和阵列几何形状决定，成像性能受相对于天线阵列的相对成像位置影响。本文研究了具有频率随机调制（FRM）信号波形的均匀间隔线性阵列（USLA）。基于相关理论推导了CIR系统的角分辨率极限（ARL）。研究了参数对分辨率性能的影响。提出的CIR系统和实际孔径雷达（RAR）系统之间的ARL进行了比较，以验证CIR系统的效率。

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《IEEE International Conference on Signal Processing, Communications and Computing》|2015年|1-4|共4页
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Guofeng Zha; Hongqiang Wang; Zhaocheng Yang; Yongqiang Cheng; Yuliang Qin;
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antenna arrays; array signal processing; geometry; radar imaging; radar resolution; ARL; CIR system; USLA; angular resolution limits; antenna array; array geometry; coincidence imaging radar; correlation theory; frequency random modulation; random signal waveform; real aperture radar system; real aperture staring radar imagery; temporal-spatial independent array detecting signals; uniform spacing linear array; Arrays; Azimuth; Correlation; Imaging; Radar imaging; Transmitting antennas; Angular resolution limit; Coincidence Imaging Radar; Correlation Theory; Frequency Random Modulation Waveform; Uniform Spacing Linear Array;

机译：天线阵列;阵列信号处理;几何;雷达成像;雷达分辨率; ARL; CIR系统; USLA;角分辨率极限;天线阵列;阵列几何形状;重合成像雷达;相关理论;频率随机调制;随机信号波形;真实孔径雷达系统;真实孔径凝视雷达图像;时空独立阵列检测信号;均匀间隔线性阵列;阵列;方位角;相关;成像;雷达成像;发射天线;角分辨率极限;重合成像雷达;相关理论;频率随机调制波形;均匀间距线性阵列;

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1. A Super-Resolution Computational Coincidence Imaging Method Based on SIMO Radar System [J] . Shitao Zhu, Xiaoli Dong, Ming Zhang, IEEE Geoscience and Remote Sensing Letters . 2017,第12期

机译：基于SIMO雷达系统的超高分辨率计算重合成像方法
2. Coincidence Velocity Imaging Apparatus for Study of Angular Correlations between Photoelectrons and Photofragments [J] . Kouichi HOSAKA, Jun-ichi ADACHI, Alexander V. GOLOVIN, Japanese Journal of Applied Physics. Part 1, Regular Papers, Brief Communications & Review Papers . 2006,第3A期

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3. Photoelectron-fragment ion correlations and fixed-molecule photoelectron angular distributions form velocity imaging coincidence experiments [J] . John H.D.Eland, Masahiko Takahashi, Yasumasa Hikosaka Faraday discussions . 2000,第115期

机译：光电子碎片离子相关性和固定分子光电子角分布形成速度成像重合实验
4. Angular resolution limits for coincidence imaging radar based on correlation theory [C] . Guofeng Zha, Hongqiang Wang, Zhaocheng Yang, IEEE International Conference on Signal Processing, Communications and Computing . 2015

机译：基于相关理论的重合成像雷达的角度分辨率限制
5. Detection and imaging of targets in the presence of clutter based on angular correlation function. [D] . Zhang, Guifu. 1998

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7. Distance and angular resolutions improvement for a ground-based radar imager [O] . R. Rouveure, P. Faure, M. Jaud, 2014

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Angular resolution limits for coincidence imaging radar based on correlation theory

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