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机构地区:[1]防空兵指挥学院研究生队 [2]73106部队司令部 [3]福建省泉州市预备役高炮团
出 处:《兵工自动化》2008年第1期12-13,共2页Ordnance Industry Automation
摘 要:火力单元冗余量的计算需要综合考虑保障和修复率,并引入战备完好率的概念来描述防空导弹武器系统火力单元冗余量。通过定义武器系统在执行任务前检测没有故障的概率、在执行任务前发生故障的概率、武器系统中导弹发射飞行的可靠性、导弹武器系统中战车的可靠性、检测系统工作的可靠性、武器系统的维修性等参数,计算从该武器系统执行前次任务返回处于待修状态的瞬间算起,直至下次命令到达前,该武器系统完成维修的概率。实例分析证明该计算方法可靠、可行。Firepower unit redundancy computation needs to synthesize considerate safeguard and the repair rate, and introduce combat readiness availability to describe the antiaircraft missile armament system firepower unit redundancy. Through the definition of some parameters, like probability occur or not during the armament system pre-inspection before the task, reliability armament system missile launching flight, reliability of tanks in missile weapon system, examination system work reliability, and armament system maintainability. Calculate the probability the armament system executed from the moment it return form the former role and wait repair, to the next order arrive. The example analysis proved this computational method is reliable and feasible.
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