Browse > Article
http://dx.doi.org/10.15207/JKCS.2021.12.12.059

Numerical Integration-based Performance Analysis of Cross-eye Jamming Algorithm through Amplitude Ratio Perturbation  

Kim, Je-An (Department of Information & Communication Engineering, Sejong University)
Choi, Yoon-Ju (Department of Electrical Engineering, Sejong University)
Lee, Joon-Ho (Department of Information & Communication Engineering, Sejong University)
Publication Information
Journal of the Korea Convergence Society / v.12, no.12, 2021 , pp. 59-64 More about this Journal
Abstract
This paper deals with the performance analysis of the jamming effect of cross-eye when the difference between the real amplitude ratio and the nominal amplitude ratio due to mechanical defects is modeled as a random variable with a normal distribution. We propose how to evaluate mean square difference (MSD) obtained using a numerical integration-based approach. The MSD obtained by the proposed method is closer to non-approximated Monte-Carlo simulation-based MSD than the analytic MSD calculated using the first-order Taylor approximation and the second-order Taylor approximation. It is shown that, based on the numerical integration, the effect of amplitude ratio perturbation on the cross-eye jamming performance can be evaluated without going through the computationally intensive Monte-Carlo method.
Keywords
Cross-eye; Jamming; EA; MSD; Numerical integration;
Citations & Related Records
연도 인용수 순위
  • Reference
1 D. C. Schleher. (1999). Electronic Warfare in the Information Age. Artech House, MA, USA. DOI : 10.5555/519999
2 S. M. Sherman & D. K. Barton. (1984). Monopulse principles and techniques. Artech House.
3 B. R. Mahafza. (2013). Radar systems analysis and design using MATLAB third edition. Chapman and Hall.
4 T. W. Tucker & B. Vidger. (2009). Cross-eye jamming effectiveness. Tactical Technologies Inc. Ottawa, ON K2A 3V6, Tech.Rep. DOI : 10.1.1.507.516
5 D. J. An & J. H. Lee. (2020). Performance analysis of amplitude comparison monopulse direction-of-arrival estimation. Applied Sciences, 10(4). DOI : 10.3390/app10041246   DOI
6 Y. S. Jang & C. H. Lee. (2016). Cross Eye Technique with Single Transceiver. Journal of the KIMST, 19.5. 598-605. DOI : 10.9766/KIMST.2016.19.5.598   DOI
7 S. A. Vakin & L. N. Shusto. (1969). Principles of Jamming and Electronic Reconnaissance-Volume I, Technical Report for U.S. Air Force.
8 A.Golden. (1987). Radar Electronic Warfare. AIAA: NewYork, NY, USA.
9 L. Falk. (2007). Cross-eye jamming of monopulse radar. 2007 International Waveform Diversity and Design Conference. IEEE. . DOI : 10.1109/WDDC.2007.4339412   DOI
10 S. Zhigang, B. Weixiong & F. Xiaolong. (2012). Analysis of cross-eye jamming. In Proceedings of the Second International Conference on Information Communication and Management (ICICM 2012), Hong Kong. DOI : 10.7763/IPCSIT.2012.V55.2   DOI
11 P. Z. Peebles Jr. (2001). Probability, random variables, and random signal principles. McGraw-Hill.
12 A. I. Leonov & K .I. Fomichev. (1986). Monopulse radar. Artech House.
13 D. R. Rhodes. (1980). Introduction to monopulse. Artech House.
14 W P. du Plessis. (2010). A Comprehensive Investigation of Retrodirective Cross-Eye Jamming. Ph.D. Dissertation, University of Pretoria, Pretoria, South Africa. http://hdl.handle.net/2263/25480
15 R. D. Yates & D. J. Goodman. (1999). Probability and stochastic processes. John Willey and Sons.