Abstract
In order to deal with the huge threat posed by anti-radiation missiles, it is an effective measure to use active decoys to antagonize anti-radiation missiles. Focusing on the three-point source decoy system, this paper first analyzes the basic principle of active decoy deflection. Secondly, this article mainly analyzes the complex flight path which is combined with multi-segment arc and straight line. In this case, a new mathematical model is established. With the help of software simulation, this paper studies the decoying effect when the flight trajectory of the anti-radiation missile is a straight line and an arc. The simulation results show that when the flight trajectory of the anti-radiation missile is a combination of the two motions, the probability that ARM can kill the radar will increase significantly
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