Research on missile-borne common aperture laser micro-Doppler target recognition system

Authors

  • Wenjian Chen
  • Weiping Sun
  • Yuanyuan Duan

Keywords:

Coherent detection, Fourier time-frequency transform, Laser line width, Laser micro-doppler, Missile-borne system, Optical path difference compensation

Abstract

In order to realize the extraction of vibration features at 100 Hz from a distance of 4 km, a method of using laser micro-Doppler to enhance the capacity of missile target identification was proposed, and a laser transmitting/receiving/video common aperture system based on polarization splitting was designed.This compact two-stage stable system is adapted to the missile-borne environment, and the optical path is compensated automatically by optical fiber selection, the coherent light matching can be realized. Using the coherence method of local oscillator/echo signal, the detection pulse light is formed by the modulation of local oscillator light with a line width of 300 Hz, so the detection range can be improved, also the false peak caused by the attenuation of atmosphere can be avoided. The Fourier transform circuit constructed by FPGA/DSP can obtain the time-frequency curve signal, the identification of the target can be achieved when the frequency is 36 kHz. © 2018, Editorial Board, Journal of Applied Optics. All right reserved.

References

Prokopenko I., Prokopenko K., Martynchuk I., Moving objects recognition by micro-Doppler spectrum, pp. 186-190, (2005)

Willis N.J., Bistatic Rader, (2005)

Tanaka T., Mandic D.P., Complex empirical mode decomposition, IEEE Signal Processing Letters, 14, 2, pp. 101-104, (2007)

Wu S., Du L., Liu H., The Doppler Effect of Radar, (2013)

Zhou J., Prelimimary study on laser Doppler velocimeter for vehicle self-contained navigation, (2011)

Yuan S., Wang X., Sheng M., Et al., Experimental research on laser micro-doppler for detecting complex vibration of moving target, Infrared and Laser, 37, 10, pp. 1036-1038, (2007)

Lu Z., Wang P., Liu J., Method of differential laser Doppler ship wake detection, Infrared and Laser Engineering, 44, 12, pp. 3525-3529, (2015)

Zhang D., Zhang H., Zheng Z., The influence of laser spot size on the micro-Doppler spectrum, SPIE, 9623, (2015)

Yuan S., Experimental research on laser micro-doppler for detecting complex vibration, (2008)

Pan W., Research on key technology of laser Doppler diameter measurement, (2008)

An Y., Liu J., Li Q., Optoelectronic Technology, (2010)

Zhang D., The study of laser micro-Doppler characters: detection, extraction, and identification, (2016)

Prasad N., Dimarcantonio A., Development of coherent laser radar for space situational awareness applications, (2013)

Olhede S., Walden A.T., The hilbert spectrum via wavelet projections, Proc. R. Soc. London, Ser A, 460, pp. 955-975, (2004)

Published

24-12-2018

How to Cite

Chen, W., Sun, W., & Duan, Y. (2018). Research on missile-borne common aperture laser micro-Doppler target recognition system. Journal of Applied Optics, 39(2), 174–179. Retrieved from https://appliedopticsjournal.net/index.php/JAO/article/view/8

Issue

Section

Original Research Article

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