Motion compensation of non-linear stepped-frequency pulse train by least step error - Springer

Yingrui Hu; Xuegang Wang

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Motion compensation of non-linear stepped-frequency pulse train by least step error - Springer

机译：最小步进误差对非线性步进频率脉冲序列的运动补偿-Springer

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Traditional stepped-frequency chirp pulse train suffers from high sidelobes and difficulty in compensating Doppler effect caused by target motion. This paper investigates a class of non-linear stepped-frequency chirp pulse train with low sidelobes and capability of clutter cancelation and motion compensation. An easy realizable least step error algorithm is developed to estimate the target’s radial velocity, which avoids multiple bursts required by other methods. The high signal-to-noise ratio as a result of sub-pulse compression assures the accuracy of estimation. The Cramer–Rao bound for lower limit on velocity estimation of the pulse train is derived to demonstrate its performance.

机译：传统的步进频率线性调频脉冲串具有高旁瓣和难以补偿由目标运动引起的多普勒效应的问题。本文研究了一类具有低旁瓣以及杂波消除和运动补偿能力的非线性步进频率线性调频脉冲序列。开发了一种易于实现的最小步进误差算法来估算目标的径向速度，从而避免了其他方法所需的多次爆发。由于子脉冲压缩而产生的高信噪比确保了估算的准确性。得出了脉冲序列速度估计的下限的Cramer–Rao界线，以证明其性能。

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来源
《Signal, Image and Video Processing》 |2010年第3期|331-336|共6页
作者
Yingrui Hu; Xuegang Wang;
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作者单位

1.706 Lab EE College University of Electronic Science and Technology of China 610054 Chengdu Sichuan People’s Republic of China;

1.706 Lab EE College University of Electronic Science and Technology of China 610054 Chengdu Sichuan People’s Republic of China;

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原文格式 PDF
正文语种 eng
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关键词
Motion compensation; Velocity estimation; Least step error; One-dimensional range profile; Non-linear stepped-frequency chirp pulse train;

机译：运动补偿;速度估计;最小步长误差;一维范围轮廓;非线性步进频率线性调频脉冲序列;
入库时间 2022-08-18 02:30:24

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专利

1. Motion compensation of non-linear stepped-frequency pulse train by least step error [J] . Yingrui Hu, Xuegang Wang Signal, Image and Video Processing . 2010,第3期

机译：最小步进误差对非线性步进频率脉冲序列的运动补偿
2. Motion Target Imaging by Non-Linear Stepped-Frequency Chirp Pulse Train [J] . Yingrui Hu, Xuegang Wang, Zhuming Chen Subsurface Sensing Technologies and Applications . 2009,第1a2期

机译：非线性步进频率线性调频脉冲序列的运动目标成像
3. High Range Resolution Synthesized by Non-linear Stepped-Frequency Chirp Pulse Train [J] . Yingrui Hu, Xuegang Wang WSEAS Transactions on Communications . 2009,第10a12期

机译：非线性步进频率线性调频脉冲串合成的高分辨力
4. Modified Stepped-Frequency Train of LFM Pulses [C] . Runxi Zhang, Yihao Chen, Chunqi Shi, 2008 IEEE international conference on information and automation (ICIA 2008) . 2008

机译：改进的LFM脉冲步进频率序列
5. Comparison of UWB short-pulse and stepped-frequency systems for imaging through barriers. [D] . Crowgey, Benjamin Reid. 2009

机译：通过障碍物成像的UWB短脉冲和步进频率系统的比较。
6. Range and Velocity Estimation of Moving Targets Using Multiple Stepped-frequency Pulse Trains [O] . Gang Li, Huadong Meng, Xiang-Gen Xia, 2008

机译：使用多个步进频率脉冲序列的运动目标距离和速度估计
7. Range and velocity estimation of moving targets using multiple stepped-frequency pulse trains [O] . Gang Li, Huadong Meng, Xiang-gen Xia, 2013

机译：用多个步进频率脉冲序列估算运动目标的距离和速度

Motion compensation of non-linear stepped-frequency pulse train by least step error - Springer

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