摘要
现代反坦克防御作战中,陆军多采用武装直升机、车载式反坦克导弹与便携式反坦克导弹相结合的立体、多层部署的方法对重点区域进行防御。敌方常通过施放红外热源、烟幕等电子干扰方式来提高其生存能力和突防效率。基于排队论和反坦克作战理论,建立了电光干扰对抗环境下的多层防御反坦克阵地的排队服务模型,并对作战想定进行了仿真应用。仿真结果表明了模型的可信性和实用性。
In modem defensive, anti-tank battle, the defense troop always adopts the method of multidimensional, multilayer deployment including armed helicopters, vehicle-mounted anti-tank missiles and portable type anti-tank missiles for the defense of important areas. Meanwhile, the enemy armor troop usually uses such electronic jamming as infrared heat source and smoke screen to improve its survivability and penetration probability. Based on queuing theory and the modern anti-tank theory, a defense effectiveness model for multilayer defensive position under electronic jamming circumstance was presented, which was used in simulation. The result indicates the creditability and feasibility of the model.
出处
《电光与控制》
北大核心
2010年第7期87-91,共5页
Electronics Optics & Control
基金
军内科研计划(08XY-06)
院校青年科研基金
关键词
反坦克导弹
电子对抗
电子干扰
服务概率
排队论
anti-tank missile
electronic countermeasure
electronic jamming
service probability
queue theory
