Title :
Research on Penetration Effectiveness of UAV by Means of Towed-decoy
Author :
Wang, Sifu ; Liu, Yongcai ; Guan, Shiyi ; Qiang, Wenyi
Author_Institution :
Harbin Inst. of Technol.
Abstract :
Unmanned aerial vehicle (UAV) is attempted to be equipped with off-board towed-decoy. This type of countermeasure can be used to survive air defense effectively during the cruise phase of UAV. The index of killed probability (or relative penetration probability) is used to verify the effectiveness of the countermeasure. The penetration effectiveness is given by Monte Carlo simulation. Some conclusions of relationship between the effectiveness and engagement factors have been obtained thru statistic analysis of simulation results. A type of directional maneuvering is introduced to improve the effectiveness of UAV in some special conditions thru enhancing the efficiency of the decoy but not breaking away from surface to air missiles (SAMs). All these countermeasures will change the passive situation of UAV completely during the engaging process
Keywords :
Monte Carlo methods; aircraft control; probability; remotely operated vehicles; Monte Carlo simulation; UAV penetration effectiveness; directional maneuvering; relative penetration probability; statistic analysis; surface-to-air missile; towed-decoy; unmanned aerial vehicle; Aircraft; Atmospheric modeling; Computer simulation; Earth; Gravity; Missiles; Probability; Reflection; Systems engineering and theory; Unmanned aerial vehicles; Monte Carlo simulation; SAM; UAV; directional maneuvering; penetration effectiveness; toweddecoy;
Conference_Titel :
Computational Engineering in Systems Applications, IMACS Multiconference on
Conference_Location :
Beijing
Print_ISBN :
7-302-13922-9
Electronic_ISBN :
7-900718-14-1
DOI :
10.1109/CESA.2006.4281743
