Optimal power management for antagonizing between radar and jamming based on continuous game theory

To solve the problem of dynamic power resource allocation for cooperative penetration combat, the continuous game theory is introduced and a two-person general-sum continuous-game-based model is put forward with a common payoff function named collaborative detection probability of netted radar countermeasures. Comparing with traditional optimization methods, an obvious advantage of game-based model is an adequate consideration of the opposite potential strategy. This model guarantees a more effective allocation of the both sides' power resource and a higher combat efficiency during a combat. Furthermore, an analysis of the complexity of the proposed model is given and a hierarchical processing method is presented to simplify the calculating process. Simulation results show the validity of the proposed scheme.