Micro-motion Targets Resolution in a High Noise Environment

Guan  Yong-Sheng; Zuo  Qun-Sheng; Liu  Hong-Wei

doi:10.3724/SP.J.1146.2009.01348

Volume 32 Issue 11

Dec. 2010

Turn off MathJax

Article Contents

Article Navigation > Journal of Electronics & Information Technology > 2010 > 32(11): 2630-2635

Guan Yong-Sheng, Zuo Qun-Sheng, Liu Hong-Wei. Micro-motion Targets Resolution in a High Noise Environment[J]. Journal of Electronics & Information Technology, 2010, 32(11): 2630-2635. doi: 10.3724/SP.J.1146.2009.01348

Citation:

Guan Yong-Sheng, Zuo Qun-Sheng, Liu Hong-Wei. Micro-motion Targets Resolution in a High Noise Environment[J]. Journal of Electronics & Information Technology, 2010, 32(11): 2630-2635. doi: 10.3724/SP.J.1146.2009.01348

Citation:

PDF( 363 KB)

Micro-motion Targets Resolution in a High Noise Environment

doi: 10.3724/SP.J.1146.2009.01348

Guan Yong-Sheng^{①② 左群声
,},
Zuo Qun-Sheng,
Liu Hong-Wei

Received Date: 2009-10-19
Rev Recd Date: 2010-07-20
Publish Date: 2010-11-19

Abstract

Abstract

Micro-motion offers a new method to resolute targets and recognition. In order to implement micro- motion targets resolution in a high noise environment, the paper proposes a novel method based on B-Distribution (BD) and Viterbi algorithm. In this paper, an effective time-frequency BD in conjunction with the Viterbi algorithm for instantaneous frequency estimation is applied to extract the multi-targets micro-Doppler, and then implement resolution. in a high noise environment. Simulation results based on synthetic data show that the method is able to extract the micro-motion parameters of targets and implement the multi-targets resolution in a high noise environment.
- Multi-target resolution,
- Micro-motion,
- Micro-Doppler,
- Viterbi algorithm,
- High noise environment

FullText(HTML)

References(1)

References

Chen V C, Li Fa-yin, and Ho Shen-shyang, et al.. Micro-Doppler effect in radar: phenomenon, model, and simulation study[J].IEEE Transactions on Aerospace and Electronic Systems.2006, 42(1):2-21[2]高红卫, 谢良贵, 文树梁. 摆动锥体目标微多普勒分析和提取[J]. 电子学报, 2008, 36(12): 2497-2502.Gao Hong-wei, Xie Liang-gui, and Wen Shu-liang. Analysis and extraction of micro-Doppler induced by cone-shaped targets wobbing[J]. Acta Electronica Sinica, 2008, 36(12): 2497-2502.[3]Liu Yong-xiang, Chen Hang-yong, and Li Xiang, et al.. Radar micro-motion target resolution[C]. CIE International Conference of Radar Proceedings, Shanghai, China, 2007: 1411-1414 .[4]黄健, 李欣, 黄晓涛, 等. 基于微多普勒特征的坦克目标参数估计与身份识别[J].电子与信息学报.2010, 32(5):1050-1055浏览Huang Jian, Li Xin, Huang and Xiao-tao, et al.. Micro- Doppler features based parameter estimation and identification of tank[J].Journal of Electronics Information Technology.2010, 32(5):1050-1055[5]李金梁, 王雪松, 刘阳, 等. 雷达目标旋转部件的微Doppler效应[J].电子与信息学报.2009, 31(3):583-587浏览Li Jin-liang, Wang Xue-song, and Liu Yang, et al.. Micro- Doppler effect of rotation structure on radar targets [J].Journal of Electronics Information Technology.2009, 31(3):583-587[6]Stankovic L, Djurovic I, and Ohsumi A, et al.. Instantaneous frequency estimation by using Wigner distribution and Viterbi algorithm[C]. IEEE International Conference on Acoustics, Speech and Signal Processing, Hong Kong, 2003, 6: 121-124.[7]Barkat B and Boashash B. A high-resolution quadratic time-frequency distribution for multicomponent signals analysis[J].IEEE Transactions on Signal Processing.2001, 49(10):2232-2239[8]Boashash B. Estimating and interpreting the instantaneous frequency of a signalPart 1: fundamental[J]. Proceedings of IEEE, 1992, 80(4): 519-538.[9]Forney G D, Jr.. The Viterbi algorithm[J].Proceedings of the IEEE.1973, 61(3):268-278[10]A.V.奥本海姆，R.W.谢弗著，刘树棠，黄建国译. 离散时间信号处理[M]. 西安：西安交通大学出版社, 2001, 第10章.[11]罗宏. 动态雷达目标的建模与识别研究[D]. [博士论文], 航天科工集团第二研究院，2000.[12]张贤达. 现代信号处理[M]. 北京：清华大学出版社，2002, 第4章.

Relative Articles

Supplements(0)

Cited By

Proportional views