Abstract
Removal of the numerous centimeter-level space debris in low Earth orbit by using high-power lasers is always a hot topic of international academic research. Specifically, the precise positioning of space debris and high-precision measurement of barycenter range of debris are the key points and worldwide problems that need to be promptly solved. As a new remote high-resolution imaging method, laser reflective tomography is an effective approach to detecting the dark targets in remote space with its imaging resolution independent of the detection range. Hence, a centimeter-level space debris barycenter model is established according to the principle of laser reflective tomography in order to analyze the relative movement of debris and detector. On this basis, an approach to estimating the barycenter range of centimeter-level space debris is proposed to carry out the experimental verification of 1km detection range laser reflective tomography. The experimental results show that this method can improve the accuracy of barycenter detection from 1.50 cm to 0.34 cm, which is an effective measure for realizing high-precision measurement of barycenter ranges of centimeter-level space debris. Furthermore, this study achieves a breakthrough in kilometer-level laser reflective tomography experiments and theory of validation, and the kilometer-level laser reflective tomography has a great application prospect and technical potential.
Highlights
laser reflective tomography is an effective approach to detecting the dark targets in remote space with its imaging resolution
a centimeter-level space debris barycenter model is established according to the principle of laser reflective tomography
in order to analyze the relative movement of debris and detector
Summary
一种无需定标的地基激光雷达气溶胶消光系数精确反演方法 An accurate inversion method of aerosol extinction coefficient about ground-based lidar without needing calibration 物理学报. 一种测量大气消光系数边界值的新方法 A new method of measuring boundary value of atmospheric extinction coefficient 物理学报. 基于拉曼-布里渊散射的海水盐度精细探测遥感方法 Method of remotely sensing seawater salinity fine detection based on Raman Brillouin scattering 物理学报. 基于两级压缩感知的脉冲星时延估计方法 Pulsar time delay estimation method based on two-level compressed sensing 物理学报. 激光反射层析技术 (laser reflection tomography, LRT) 是在计算机断层扫描 (computed tomography, CT) 基础上发展而来的新型成像探测技 术, 具有成像分辨率与距离无关的优势, 且受外部 环境因素影响较小[16]. Murray 等 [19] 开展了基于脉冲压缩的距 离分辨 LRT 实验, 以成像分辨率 15 cm 实现了对 22.4 km 处直径 1 m 的多个匀速旋转角反射器的 重构成像. 目前, 国内对 LRT 的实验及 其理论验证距离通常为 10 m 到 50 m[20,21,23]. 过分析空间碎片目标与探测器的相对运动, 提出了 基于 LRT 的厘米级空间碎片质心距离估计方法, 开展了 1 km 探测距离的实验验证. 相比传统的空 间碎片激光测距技术, 本文实验使用的 LRT 雷达 样机具有更高的距离分辨率, 且本文提出的质心估 计方法考虑了碎片目标自身形状对回波波形的调 制, 实现了更高精度的质心探测, 从机理上更具优 势. 该研究将厘米级空间碎片质心探测精度由 1.50 cm 提高到 0.34 cm, 并实现了千米级 LRT 实 验及其理论验证的突破, 将具有更广阔的应用前景 和技术发展潜力 过分析空间碎片目标与探测器的相对运动, 提出了 基于 LRT 的厘米级空间碎片质心距离估计方法, 开展了 1 km 探测距离的实验验证. 相比传统的空 间碎片激光测距技术, 本文实验使用的 LRT 雷达 样机具有更高的距离分辨率, 且本文提出的质心估 计方法考虑了碎片目标自身形状对回波波形的调 制, 实现了更高精度的质心探测, 从机理上更具优 势. 该研究将厘米级空间碎片质心探测精度由 1.50 cm 提高到 0.34 cm, 并实现了千米级 LRT 实 验及其理论验证的突破, 将具有更广阔的应用前景 和技术发展潜力
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