A block-based improved recursive moving-target-indication algorithm

Hou Wang; Yu Qi-Feng; Lei Zhi-Hui; Liu Xiao-Chun

doi:10.7498/aps.63.074208

Abstract

A new block-based recursive moving-target indication algorithm in velocity domain is proposed to solve the problem which is the rapid detection of dim and small target for infrared search and tracking system. Firstly, the two-dimensional least mean square filter is adopted to filter the infrared image sequence, which extracts small targets and residual errors of image sequence. Then, block-based recursive moving-target indication algorithm is adopted to accumulate small target in image block sequence for the enhancement of small target velocity in velocity domain. Finally, resulting image is obtained by using classical recursive moving-target indication algorithm and target velocity for small target detection. Compared with classical method, the proposed method requires less running time, and can be used to detect dim small target image effectively as demonstrated by several groups of experimental results.

Keywords:

Authors and contacts

1.
College of Aerospace Science and Engineering, National University of Defense Technology, Changsha 410073, China
Funds: Project supported by National Basic Research Program of China (Grant No. 2013CB733100).

References

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Cited By

[1]	Qin H L, Li J, Zhou H X, Lai R; Liu S Q 2011 J.Infrared Millim.Waves. 30 162 (in Chinese) [秦翰林, 李佳, 周慧鑫, 赖睿, 刘上乾2011 红外与毫米波学报30 162]
[2]	Wang J L, Yang C L, Dai J M 2011 J.Infrared Millim. Waves. 30 149 (in Chinese)[王暕来, 杨春玲, 戴景民 2011 红外与毫米波学报30 149]
[3]	He S H, Yang S Q, Shi A G 2009 Acta Phys. Sin. 58 794 (in Chinese)[何四华, 杨绍清, 石爱国, 李天伟2009 58 794]
[4]	Zhang Q L, Zhang J, Qiu K S, Zhang D X, Feng B H, Zhang J Y 2012 Chin. Phys. B. 21 054213
[5]	Ma Z M, Tao C K 1999 Acta Phys. Sin. 12 2202 (in Chinese)[马兆勉, 陶纯堪1999 12 2202]
[6]	Xiao X, Xu L, Li Q W 2013 Chin. Phys. B 22 094101
[7]	Xing Y H, Gong P, Xu W 2012 Acta Phys. Sin. 61 160501 (in Chinese)[行鸿彦, 龚平, 徐伟2012 61 160501]
[8]	Xu Y N, Zhao Y, Liu L P, Zhang Y, Sun X D 2010 Acta Phys. Sin. 59 980 (in Chinese)[许元男, 赵远, 刘丽萍, 张宇, 孙秀冬2010 59 980]
[9]	Sun C M, Yuan Y, Zhang X B 2010 Acta Phys. Sin. 59 7530 (in Chinese)[孙成明, 袁艳, 张修宝2010 59 7530]
[10]	Wang Z, Huang X, Li Y X, Song X N 2013 Chin. Phys. B 22 010504
[11]	Zhao J J, Tang Z Y, Yang J, Liu E Q 2011 J.Infrared Millim. Waves. 30 156 (in Chinese)[赵佳佳, 唐峥远, 杨杰, 刘尔琦, 周越2011 红外与毫米波学报30 156]
[12]	Hu T, Zhao J J, Cao Y, Wang F L, Yang J 2010 J. Infrared Millim.Waves. 29 303 (in Chinese)[胡暾, 赵佳佳, 曹原, 王芳林, 杨杰2010 红外与毫米波学报29 303]
[13]	Jiang B, Wang H Q, Li X, Guo G R 2006 Acta Phys. Sin. 55 3985 (in Chinese)[姜斌, 王宏强, 黎湘, 郭桂蓉 2006 55 3985]
[14]	Reed I S, Gagliardi R M, Shao H M 1983 Ieee Transactions On Aerospace And Electronic Systems. 19 898
[15]	Reed I S, Gagliardi R M, Stotts L B 1988 Ieee Transactions On Aerospace And Electronic Systems. 24 327
[16]	Reed I S, Gagliardi R M, Stotts L B 1990 Ieee Transactions On Aerospace And Electronic Systems. 26 434
[17]	Chen Y 1989 Ieee Transactions On Aerospace And Electronic Systems. 25 343
[18]	Stocker A D, Jensen P 1991 Proc. SPIE 1991 p140
[19]	Xiong Y, Peng J X, Ding M, Xue D 1997 Ieee Transactions On Aerospace And Electronic Systems. 33 1087
[20]	Sun C J, Yang W P, Sheng Z K, Zhu Z F, Ma L, Song B 2003 Infrared Technology. 25 36 (in Chinese) [孙翠娟, 杨卫平, 沈振康, 朱振福, 马丽, 宋波2003 红外技术25 36]
[21]	Zhang T X, Li M, Zuo Z, Yang W, Sun X 2007 Pattern Recognition Letters. 28 246
[22]	Hadhoud M M, Thomas D W 1988 Ieee Transactions On Circuits And Systems. 35 485
[23]	Bae T, Kim Y, Ahn S, Sohng K 2010 Ieice Electronics Express. 7 112
[24]	Gonzalez R C, Woods R E 2010 Digital Image Processing (Beijing: Publishing House of Electronics Industry) p276
[25]	Chu R L 1988 IEEE Transactions On Acoustics Speech and Signal Processing. 36 775

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Vol. 63, Issue 7 - 2014-04-05

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