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Low-CNR inverse synthetic aperture LADAR imaging demonstration with atmospheric turbulence

机译：具有大气湍流的低CNR逆合成孔径LADAR成像演示

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An Inverse Synthetic Aperture LADAR (ISAL) system is capable of providing high resolution surface mapping of near Earth objects which is an ability that has gained significant interest for both exploration and hazard assessment. The use of an ISAL system over these long distances often presents the need to operate the optical system in photon-starved conditions. This leads to a necessity to understand the implications of photon and detector noise in the system. Here a Carrier-to-Noise Ratio is derived which is similar to other optical imaging CNR definitions. The CNR value is compared to the quality of experimentally captured images recovered using the Phase Gradient Autofocus technique both with and without the presence of atmospheric turbulence. A minimum return signal CNR for the PGA to work is observed.

机译：反向合成孔径LADAR（ISAL）系统能够提供近地物体的高分辨率表面制图，这一功能在勘探和灾害评估中都引起了极大的兴趣。在这么长的距离上使用ISAL系统经常需要在光子匮乏的条件下操作光学系统。这导致必须了解系统中光子和检测器噪声的含义。在这里，得出的载噪比与其他光学成像CNR定义相似。将CNR值与使用相位梯度自动聚焦技术（无论是否存在大气湍流）恢复的实验捕获图像的质量进行比较。观察到使PGA正常工作的最小返回信号CNR。

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来源
《Long-rance imaging》|2016年|98460E.1-98460E.13|共13页
会议地点 Baltimore MD(US)
作者
R. Trahan; B. Nemati; H. Zhou; M. Shao; I. Hahn; W. Schulze;
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作者单位

Jet Propulsion Laboratory, 4800 Oak Grove Drive, Pasadena, CA, USA 91109;

Jet Propulsion Laboratory, 4800 Oak Grove Drive, Pasadena, CA, USA 91109;

Jet Propulsion Laboratory, 4800 Oak Grove Drive, Pasadena, CA, USA 91109;

Jet Propulsion Laboratory, 4800 Oak Grove Drive, Pasadena, CA, USA 91109;

Jet Propulsion Laboratory, 4800 Oak Grove Drive, Pasadena, CA, USA 91109;

Jet Propulsion Laboratory, 4800 Oak Grove Drive, Pasadena, CA, USA 91109;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Inverse Synthetic Aperture LADAR; ISAL; Long-range imaging; Phase Gradient Autofocus; PGA; Range-Doppler imaging; Carrier-to-noise ratio; CNR;

机译：逆合成孔径LADAR ISAL；远程成像；相位梯度自动对焦； PGA；距离多普勒成像；载噪比； CNR;
入库时间 2022-08-26 13:54:08

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专利

1. Inverse synthetic aperture LADAR demonstration: system structure, imaging processing, and experiment result [J] . Wang Ning, Wang Ran, Mo Di, Applied optics . 2018,第2期

机译：逆合成孔径LADAR演示：系统结构，成像处理和实验结果
2. Modified Frequency Scaling Algorithm for Synthetic Aperture Imaging Ladar Imaging Through the Turbulence [J] . GUO Liang, XING Mendao, LIANG Yi, 电子学报：英文版 . 2009,第001期

机译：合成孔径成像雷达通过湍流成像的改进频率缩放算法
3. Micro-Doppler effect analysis and feature extraction in inverse synthetic aperture imaging LADAR imaging [J] . Jin He, Qun Zhang, Ying Luo, Journal of Applied Remote Sensing . 2011,第Null期

机译：逆合成孔径成像LADAR成像中的微多普勒效应分析和特征提取
4. Low-CNR inverse synthetic aperture LADAR imaging demonstration with atmospheric turbulence [C] . R. Trahan, B. Nemati, H. Zhou, Conference on long-rance imaging . 2016

机译：低CNR逆合成孔径Ladar成像演示与大气湍流
5. Effect of Atmospheric Turbulence on Synthetic Aperture LADAR Imaging Performance [D] . Schumm, Bryce Eric. 2017

机译：大气湍流对合成孔径LADAR成像性能的影响
6. Experimental Research on Interferometric Inverse Synthetic Aperture Radar Imaging with Multi-Channel Terahertz Radar System [O] . Ye Zhang, Qi Yang, Bin Deng, 2019

机译：多通道太赫兹雷达系统干涉合成逆孔径雷达成像实验研究
7. An Inverse Synthetic Aperture Ladar Imaging Algorithm of Maneuvering Target Based on Integral Cubic Phase Function-Fractional Fourier Transform [O] . Yakun Lv, Yanhong Wu, Hongyan Wang, 2018

机译：基于整体立方相位函数 - 分数傅里叶变换的机动目标逆合成孔径升降型算法
8. Synthetic Aperture Ladar Imaging and Atmospheric Turbulence. [R] . Barber, Z. 2016

机译：合成孔径Ladar成像和大气湍流。

Low-CNR inverse synthetic aperture LADAR imaging demonstration with atmospheric turbulence

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