Analysis of stabilization quality false alarm probability by a radar adaptive detector in order statistics
DOI:
https://doi.org/10.3103/S0735272707040012Abstract
New expressions are derived for estimating the false alarm probability by adaptive threshold detectors, using the method of averaging and method of order statistics, in the presence of nonstationary interference. Potentialities of these devices, from the viewpoint of their stabilization of false alarm probability in the presence of nonstationary interference, are defined, and comparative analysis of the devices is performed.References
P. A. Bakulev, Yu. A. Basistov, and V. G. Tugushi, Izv. VUZ. Radioelektronika 32(4), 4 (1989).
H. Rohling, IEEE Trans. on Aerospace and Electronic Systems AES-19, No. 4, 601 (1983).
S. Blake, IEEE Trans. on Aerospace and Electronic Systems AES-24, No. 6, 785 (1988).
M. Barkat, S. N. Hirnonas, and P. K. Vaisbney, IEE Proceedings 136, No. 5, 193 (1989).
He You, IEE Proceedings 131, No. 4, 205 (1994).
H. Rohling, “25 years research in range CFAR techniques,” in: IRS 2003 (German Institute of Navigation, Dresden, 2003) pp. 363–368.
F. M. Andreyev, A. N. Kurbet, and R. E. Pashchenko, Izv. VUZ. Radioelektronika 46(2), 70 (2003).
F. M. Andreyev, R. E. Pashchenko, and I. V. Taranchenko, Izv. VUZ. Radioelektronika 47(1), 20 (2004).
G. Baitman and A. Erdein, Tables of Integral Transformations—Fourier, Laplace, and Melline Transforms (Nauka, Moscow, 1968) [Russian translation].
F. M. Andreyev, I. V. Taranchenko, and D. A. Grib, “Potentialities of radar threshold detectors using the method of order statistics,” Systemy Obrobky Informatsii, KhUPS, No. 3(9), 57 (2006).
F. M. Andreyev, R. Ye. Pashchenko, and I. V. Taranchenko, “Comparative analysis of adaptive detectors at location of multiple targets,” Systemy Obrobky Informatsii, KhVU, No. 4, 170 (2003).
