THE CONCEPT OF DISRUPTING ANTI-RADIATION MISSILES IN A RADAR DECOY SYSTEM
Main Article Content
Abstract
The ongoing armed conflicts in the world today demonstrate the huge role of electronic reconnaissance, which is becoming one of the primary sources of data on the enemy and the area of operations. One of the tools of radioelectronic warfare, which includes electronic reconnaissance, are radiolocation stations, which play a key role in detecting, tracking and identifying enemy aircraft and in directing armaments to combat these threats. The enemy’s own radiolocation stations are also targeted. The missiles used to do this are called anti-radar missiles (ARM). One way to defend against them is to modify the electromagnetic field around the protected radar. The purpose of this article was to present a model of coherent interference of an anti-radiation missile in a radar trap system The authors applied an analysis of the available literature and carried out computer simulations in the MATLAB environment. In conclusion, the important role played by radar decoys on today’s battlefield was pointed out.
Downloads
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
References
Articles and monographs
Czeszejko S., Pociski przeciwradiolokacyjne – rozwój i ich stan obecny, “Obronność – Zeszyty Naukowe Wydziału Zarządzania i Dowodzenia Akademii Obrony Narodowej” 2013, no. 1(5).
Fontana S., Di Lauro F., An Overview of Sensors for Long Range Missile Defense, “Sensors” 2022, no. 22(24).
Kwika J., Rozpoznanie radiolokacyjne – rzeczywistość i przyszłość Sił Powietrznych, “Obronność – Zeszyty Naukowe Wydziału Zarządzania i Dowodzenia Akademii Obrony Narodowej” 2015, no. 4.
Łuszczyk M., Wybrane problemy ochrony radarów przed rakietami antyradiolokacyjnymi, “Problemy Mechatroniki” 2014, no. 5(16).
Matuszewski J., Pietrasiński J., Walka radioelektroniczna w radiolokacji, WAT, Warszawa 2019.
Nicpoń K., Rakiety przeciwradiolokacyjne: wschód, “Nowa Technika Wojskowa” 1996, no. 7.
Nicpoń K., Rakiety przeciwradiolokacyjne: zachód, “Nowa Technika Wojskowa” 1996, no. 5.
Pace P.E., Detecting and Classifying Low Probability of Intercept Radar, Artech House, Boston 2009.
Rutkowski A., Podzespoły i układy mikrofalowe – Wybrane zagadnienia i laboratorium komputerowe, Warszawa 2010.
Ślesicka A., Model koherentnego zakłócenia pocisku ARM w systemie pułapek radiolokacyjnych, master thesis, WAT, Warszawa 2017.
Zou J., Gao K., Lu S., Zhang E., Coherent Decoy Jamming Anti-radiation Missiles, Proc. of 2013 IEEE Jordan Conference on Applied Electrical Engineering and Computing Technologies (AEECT) Amman, Jordan 2013.
Zou J., Gao K., Lu S., Zhang E., The Angle Measurement Error Analysis of Near Field Phase Comparison under Coherent Sources, “Journal of Information and Computational Science” 2011, no. 8(10).
Zou J., Gao K., Zhang E., Inducing Anti-radiation Missile Safely under Coherent Decoy Based on VD-Kalman Filter, The International Conference on Information Engineering and Computer Science (ICIECS2009), China, Wuhan 2009.
Zou J., Gao K., Zhang E., Using radar echo to confront anti-radiation missiles, “Electronic Letters” 2011, no. 47(5).
Online sources