Separation and reconstruction of the rigid body and micro-Doppler signal in ISAR part II – statistical analysis

Stanković Ljubisa; Stanković Srdjan; Thayaparan Thayananthan; Daković Milos; Orović Irena

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Separation and reconstruction of the rigid body and micro-Doppler signal in ISAR part II – statistical analysis

机译：ISAR第II部分中刚体和微多普勒信号的分离与重建–统计分析

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Micro-Doppler effect corresponds to non-stationary components in the time-frequency domain, while the rigid body can be considered as a stationary signal during the processing time. This property is used in the first part of the study to present the method for separation recovery based on the compressive sensing theory. Recovery bounds are based on the restricted isometry property or the coherence and spark analysis. Their calculation is a computationally difficult (Non-deterministic Polynomial-time (NP) hard) problem. These bounds also produce very pessimistic results. It is the reason to consider the statistical analysis of the reconstruction results. The statistical approach is presented in this part of the study and illustrated by examples, including a detailed case study example.

机译：微多普勒效应对应于时频域中的非平稳分量，而刚体可以在处理时间内视为固定信号。在研究的第一部分中使用此属性来介绍基于压缩感测理论的分离回收方法。恢复界限基于受限的等轴测特性或相干性和火花分析。它们的计算是计算上的难题（非确定性多项式时间（NP）难题）。这些界限也会产生非常悲观的结果。这是考虑对重建结果进行统计分析的原因。本部分将介绍统计方法，并通过示例进行说明，包括详细的案例研究示例。

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《Radar, Sonar & Navigation, IET》 |2015年第9期|1155-1161|共7页
作者
Stanković Ljubisa; Stanković Srdjan; Thayaparan Thayananthan; Daković Milos; Orović Irena;
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Fac. of Electr. Eng., Univ. of Montenegro, Podgorica, Montenegro;

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1. Separation and reconstruction of the rigid body and micro-Doppler signal in ISAR part I – theory [J] . Stanković Ljubisa, Stanković Srdjan, Thayaparan Thayananthan, Radar, Sonar & Navigation, IET . 2015,第9期

机译：ISAR第一部分I理论中的刚体和微多普勒信号的分离与重建
2. Separation of target rigid body and micro-doppler effects in ISAR imaging [J] . Ljubisa Stankovic, Igor Djurovic, Thayananthan Thayaparan IEEE Transactions on Aerospace and Electronic Systems . 2006,第4期

机译：ISAR成像中目标刚体的分离和微多普勒效应
3. Separation of target rigid body and micro-doppler effects in ISAR imaging [J] . Ljubisa Stankovic, Igor Djurovic, Thayananthan Thayaparan IEEE Transactions on Aerospace and Electronic Systems . 2006,第期

机译：ISAR成像中目标刚体的分离和微多普勒效应
4. Analytical rigid body reconstruction after micro-Doppler removal [C] . Popovic-Bugarin Vesna, Radenovic Filip, Stankovic Ljubisa International Symposium on Image and Signal Processing and Analysis . 2013

机译：微多普勒去除后的刚体分析
5. Geometry, Timing, and Kinematics of Neogene Extensional and Transtensional Structures of Southern Death Valley: Implications for Regional Reconstructions and a Corrective Method for Rigid Body Rotations [D] . Fleming, Zachariah Fleming 2018

机译：南部死亡谷新近纪伸展和伸展构造的几何学，时间和运动学：对区域重建的启示和刚体旋转的校正方法
6. Transport properties of rigid bent-rod macromolecules and of semiflexible broken rods in the rigid-body treatment. Analysis of the flexibility of myosin rod. [O] . A Iniesta, F G Díaz, J García de la Torre 1988

机译：刚体处理中的刚性弯杆大分子和半柔性折断杆的传输特性。肌球蛋白棒的柔韧性分析。
7. A Method for the Micro-Motion Signal Separation and Micro-Doppler Extraction for the Space Precession Target [O] . Xuguang Xu, Cunqian Feng, Sisan He 2020

机译：用于空间进置目标的微观运动信号分离和微多普勒提取的方法
8. Separation of Target Rigid Body and Micro-Doppler Effects in ISAR/SAR Imaging [R] . Thayaparan, T. 2006

机译：IsaR / saR成像中目标刚体的分离与微多普勒效应

Separation and reconstruction of the rigid body and micro-Doppler signal in ISAR part II – statistical analysis

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