Journal of Systems Engineering and Electronics ›› 2012, Vol. 23 ›› Issue (3): 355-363.doi: 10.1109/JSEE.2012.00044
• DEFENCE ELECTRONICS TECHNOLOGY •
Tao Jian, You He∗, Feng Su, Dianfa Ping, and Xiaodong Huang
Based on the target scatterer density, the range-spread target detection of high-resolution radar is addressed in additive non-Gaussian clutter, which is modeled as a spherically invariant random vector. Firstly, for sparse scatterer density, the detection of target scatterer in each range cell is derived, and then an M/K detector is proposed to detect the whole range-spread target. Secondly, an integrating detector is devised to detect a range-spread target with dense scatterer density. Finally, to make the best of
the advantages of M/K detector and integrating detector, a robust detector based on scatterer density (DBSD) is designed, which can reduce the probable collapsing loss or quantization error effectively. Moreover, the density decision factor of DBSD is also determined. The formula of the false alarm probability is derived for DBSD. It is proved that the DBSD ensures a constant false alarm rate property. Furthermore, the computational results indicate that the DBSD is robust to different clutter one-lag correlations and target scatterer densities. It is also shown that the DBSD outperforms the existing scatterer-density-dependent detector.
Tao Jian, You He, Feng Su, Dianfa Ping, and Xiaodong Huang. Robust detector for range-spread targets in non-Gaussian background[J]. Journal of Systems Engineering and Electronics, 2012, 23(3): 355-363.
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