K. Zikidis, A. Skondras, and C. Tokas, “LOW Observable Principles,” Stealth Aircraft and Anti– Stealth Technologis,” Jornal of Computions & Modelling, vol. 4, no. 1, 2014.
P. E. Pace, “Detecting and Classifying low Probability of Intercept Radar,” Artech House, 2009.
L. Anjaneyulu, N. S. Murthy, and N. V. S. N. Sarma, “A NOVEL Method for Recognition of Modulation Code Of LPI Radar Signal,” International Journal of Recent Trends in Engineering, vol. 1, no. 30, May 2009.
R. Vellanki and K. Satish Babu, “Modeling and Analysis of LPI Radar Signal,” IOSR Journal of Electronic and Communication Engineering e-ISSN: 2278-2834, P – ISSN: 2278-8735, vol. 8, ISSUE 2, pp. 19-26, Nov.- Dec. 2013.
J. P. Schuerger, “ Ultra-Wideband OFDM radar and communication system,” Miami University Oxford, Ohio, 2009 .
R. M. Narayanan and M. Dawood, “Radar Penetration Imaging Using Ultra-Wideband Random Noise Waveform,” IEEE TRANS. On Anrennas and Propagation, vol. 48, no. 6, pp. 868-878, June 2000.
B. wang and L. dongge, “Blind identification of OFDM signal in Rayleigh channel,” 2005.
G. raviprakash and B. ravi, “Generation of Low Probability of Intercept signal,” Dept. of ECE, SPK Institute of Technology, Vijayawada, A. P. india scientist–“D” in defense electronics research laboratory, An EW lab of DRDO, Hyderabad AP india, Sep. 2013.
(2017). Simulating and providing optimal methods of electronic warfare for radar avoidance of airborne systems using OFDM modulation.. Passive Defense, 8(3), 77-85.
MLA
. "Simulating and providing optimal methods of electronic warfare for radar avoidance of airborne systems using OFDM modulation.". Passive Defense, 8, 3, 2017, 77-85.
HARVARD
(2017). 'Simulating and providing optimal methods of electronic warfare for radar avoidance of airborne systems using OFDM modulation.', Passive Defense, 8(3), pp. 77-85.
VANCOUVER
Simulating and providing optimal methods of electronic warfare for radar avoidance of airborne systems using OFDM modulation.. Passive Defense, 2017; 8(3): 77-85.
)
