Research on Angle Measurement Model of Anti-radiation

• Autorzy: Zou J. , Gao K. , Zhang E.

Warianty tytułu

PL

Sterowniki PID do kontroli wtrysku paliwa typu common-rail w silnikach DieslaBadania błędu pomiaru kąta w antyradiacyjnej broni PRS

• Języki publikacji: EN

Abstrakty

EN

How the monopulse passive radar seeker (PRS) of anti-radiation missiles (ARM) works in tracking radars is explained and demonstrated in this paper. The performance of PRS that the tracking location can fall at a point completely outside the decoys under coherent decoy jamming by using phase-amplitude sensing model, angle measurement error with different SNR compared with theoretic calculation results is given. The numerical results are presented to verify the effectiveness of this model and the coherent decoys jamming ARM theory.

PL

W artykule zaprezentowano jednopulsowy pasywny poszukiwacz radaru PRS w broni anty-radiacyjnej. Właściwości systemu PRS są analizowane przy wykorzystaniu modelu amplitudowo-fazowego, na podstawie którego obliczany jest błąd pomiaru kąta.

Słowa kluczowe

EN

PRS; ARM; monopulse angle measurement system; phase-amplitude-comparison

PL

PRS; wyszukiwacz pasywny radaru

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2012
• Tom: R. 88, nr 3b
• Strony: 18--21
• Opis fizyczny: Bibliogr. 12 poz., schem., wykr.

Twórcy

autor

Zou J.

autor

Gao K.

autor

Zhang E.

• Room 204, Institude of electronic science and technology, National university of defense technology, Changsha, 410073, P.R.China,

Bibliografia

• [1] A.И. Leonov. “Monopulse radar”. Defense industry publisher, 1974.
• [2] Gregory J. Meyer. Using Cross-eye Techniques to Counter Radio Frequency Agile Monopulse Processing. Ohio: Air Force Institute of Technology, 1997.
• [3] Si Xicai. Techniques of Passive Radar Seeker of Anti-radiation Missiles. Tactical Missile Technology, 16(1995), No.2, 42-52.
• [4] Wei Xing, Wan Jiawei, Huangfu Kan. In Time Passive localization using Base-line Phase Comparison Receiver. 2006 CIE International Conference on Radar, 2006.
• [5] Qu Zhiyu, Si Xicai, Xie Jiling. Analysis of Phase-comparison Passive-radar-seeker Angle Measurement with Decoy of Coherent Sources. Systems Engineering and Electronics, 30 (2008), No.5, 824-827.
• [6] Karasawa Naoki, Kakehata Hiroshi, etal. Phase and Amplitude Comparison between Experiment and Calculation of Ultrabroad-band Pulse Generated in a Taper Fiber. IEEE Photonics Technology Letters. 17 (2005), No.1,
• [7] Lars Falk. Influence of Wave Propagation on Cross-eye Jamming. Swedish Defence Research Agency, 2004.
• [8] Jianbin Zou, Kai Gao, Eryang Zhang. Inducing Anti-radiation Missile Safely under Coherent Decoy Based on VD-Kalman Filter. The International Conference on Information Engineering and Computer Science (ICIECS2009), 2009.12.
• [9] Jianbin Zou, Kai Gao, Eryang Zhang. Using Radar Echo to confront Anti-Radiation Missiles [J]. Electronics Letters, 47(2011), No.5, 340-341.
• [10] Lv Tongguang, Jiang Wenli, Li Dun, eatl. Performance Analysis of the Dual-sourece Decoying Technique against Passive Radar Seeker. Systems Engineering and Electronics, 24 (2002),n No.4, 47-50.
• [11] W.P.du Plessis, J.W. Odendaal et al. Extended Analysis of Retrodirective Cross-eye Jamming. IEEE Trans on Antennas and Propag. , 57(2009), No.9,2803-2806.
• [12] N.M.Harwood, W.N.Dawber, D.J.King,V.A.Kluchers and G.E.James. Multiple-element Crosseye. IET Radar Sonar Navig. 1(2007), No.1,67-73.