Electronic attack against boost-phase ICBM defense system

In this paper, the different electronic attack (EA) techniques that can be deployed to reduce the effectiveness of boost-phase target sensing, tracking, and intercepting are examined. The purpose is to investigate the effects of the EA on the performance of the radio frequency (RF) sensors used within a boost-phase ballistic missile defense sensor system. The EA types investigated include barrage noise, chaff tactics, and the use of expendable decoys. The reduction of the radar cross-section is also addressed and predicted using a physical optics approach. The desired effect of the EA against the RF sensors is degradation of the target track quality, thereby forcing the sensors to use other methods to estimate the target position (e.g., triangulation). An inadequately designed sensor fusion scheme can lead to loss of target track, which is undesirable in a boost-phase ballistic missile intercept system.

[1]  F. Neri,et al.  Anti-monopulse jamming techniques , 2001, Proceedings of the 2001 SBMO/IEEE MTT-S International Microwave and Optoelectronics Conference. (Cat. No.01TH8568).

[2]  J. D. Crouch National missile defense , 1993 .

[3]  Cihangir Kemal Yuzcelik Radar absorbing material design , 2003 .

[4]  C. A. Fowler National missile defense (NMD) , 2002 .

[5]  D. C. Jenn,et al.  Radar and laser cross section engineering , 2005 .

[6]  M. Skolnik,et al.  Introduction to Radar Systems , 2021, Advances in Adaptive Radar Detection and Range Estimation.

[7]  Elmo E. Garrido Graphical User Interface for a Physical Optics Radar Cross Section Prediction Code , 2000 .

[8]  H. M. Musal,et al.  UNIVERSAL DESlGN CHART FOR SPECULAR ABSORBERS , 1990 .

[9]  Kubilay Uzun Requirements and Limitations of Boost-Phase Ballistic Missile Intercept Systems , 2004 .