Research on echo filtering algorithm of multi pulse laser range extended target in dynamic clutter background of airborne platform

Junling Sun; Pengge Ma; Dongdong Pang; Qiuchun Jin; Xinyong Chen; Tao Shan; Ran Tao

doi:10.3788/IRLA20200449

Journals >Infrared and Laser Engineering >Volume 50 >Issue 3 >Page 20200449 > Article

Infrared and Laser Engineering
Vol. 50, Issue 3, 20200449 (2021)

Research on echo filtering algorithm of multi pulse laser range extended target in dynamic clutter background of airborne platform

Junling Sun¹, Pengge Ma¹, Dongdong Pang², Qiuchun Jin¹, Xinyong Chen¹, Tao Shan², and Ran Tao²

Author Affiliations

¹School of Intelligent Engineering, Zhengzhou Institute of Aeronautics Industry Management, Zhengzhou 450015, China

²School of Information and Electronics, Beijing Institute of Technology, Beijing 100081, China

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DOI: 10.3788/IRLA20200449 Cite this Article

Junling Sun, Pengge Ma, Dongdong Pang, Qiuchun Jin, Xinyong Chen, Tao Shan, Ran Tao. Research on echo filtering algorithm of multi pulse laser range extended target in dynamic clutter background of airborne platform[J]. Infrared and Laser Engineering, 2021, 50(3): 20200449 Copy Citation Text

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Fig. 1. Clutter signal of the acquisited waveform by the 1 064 nm subnanosecond muti-pulse laser rangefinder

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Fig. 2. Schematic diagram of target attitude

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Fig. 3. F-22 waveform sequences of different irradiating angles. （a）Outline of the F-22 airplane; （b）Target echo sequence with an incident angle of 60°;（c）Target echo sequence with an incident angle of 30°

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Fig. 4. Detected waveform for the same airplane target with homogeneous clutter under the condition of various β and SNR=0.2. （a） Cumulative target signal;（b） Range extended target echo waveform extracted under the Donoho threshold β=1; （c） Range extended target echo waveform extracted under the Donoho threshold β=1.5；（d） Range extended target echo waveform extracted under the Donoho threshold β=2.5

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Input：Echo observation signal s(n)
Output：Target waveform s’(n)
Step1. For the target echo signal s(n) with clutter and noise, the symmetrical wavelet basis function is used for discrete wavelet transform, and the low-frequency coefficients cj,k and the high-frequency coefficients dj,k are obtained;
Step2. The Donoho threshold Tj of wavelet decomposition high frequency coefficients is calculated, and the wavelet coefficients larger than Tj are deleted from dj,k;
Step3. According to the observed data, the root mean square of each segment of clutter is stored to evaluate the clutter intensity;
Step4. According to the clutter condition, the threshold Thj is set by Eq. (13), and the coefficients less than the threshold value in the remaining wavelet decomposition high-frequency coefficients are set to zero, and is obtained;
Step5. cj,k, s’(n) is obtained by IDWT reconstruction of .

Table 1. [in Chinese]

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