共查询到19条相似文献,搜索用时 95 毫秒
1.
2.
3.
4.
5.
6.
装备战场生存能力评估是武器系统战场损伤研究的一项基本工作.如何有效地进行雷达装备战场生存能力评估,对雷达的研制及作战运用具有深远的影响.基于层次分析法建立了作战状态雷达装备战场损伤生存能力综合评估模型,研究了运用专家经验评判的权重确定标准和雷达战、技性能指标的评估指数量化模式,以及雷达装备生存能力定量加权综合评定的方法.最后对某型雷达系列装备的生存能力进行了评估分析,验证了该方法的可行性. 相似文献
7.
8.
两栖装甲车辆机动生存能力的高低将直接影响其登陆作战任务的完成,如何对其进行正确评估是提高两栖装甲车辆生存能力的关键所在。构建两栖装甲车辆生存能力评估指标体系是其生存能力评估的一项重要内容。阐述两栖装甲车辆的特征以及在战场面临的主要威胁,采用专家调查法和层次分析法构建两栖装甲车辆的机动生存能力评估指标体系,并对该评估指标体系进行分析。装甲装备的生存能力主要取决于装甲装备的敏感性及易损性,具体表现为车辆自身效能、战场环境因素、战场保障能力等,可用生存概率进行分析。 相似文献
9.
为合理有效地评估雷达在战场上的生存能力,选取截获概率作为定量评估指标,分析了侦察截获的判断条件,根据截获条件对雷达对抗侦察系统进行功能仿真,建立了基于HLA的评估系统.通过仿真得到了对应时间的截获概率,并以此作为评估雷达生存能力的定量指标.仿真结果表明,采用这种方法得到的截获概率合理,对提高雷达生存能力有一定参考意义. 相似文献
10.
11.
为研究更符合实际战场环境的飞机作战生存力,以降雨这一自然环境为典型,建立了雨杂波干扰下雷达对飞机的探测概率模型以及飞机生存力模型。认为飞机的RCS是Swerling起伏目标,通过确定综合信干比和最小可检测信噪比,采用蒙特卡罗法,利用MATLAB仿真了在雨杂波干扰和杂波抑制综合作用下飞机的生存力与距离的关系,并重点讨论了雷达波长和降雨状况对飞机生存力的影响。结论认为:在S波段内,降雨使飞机的生存力有一定程度的提高,且随着降雨量的增大和敌方雷达波长的减小,飞机生存力的提高更为明显;考虑降雨状况的影响,对于飞机生存力的研究是具有一定实际意义的。 相似文献
12.
Vulnerability assessment to projectiles: Approach definition and application to helicopter platforms
《防务技术》2022,18(9):1523-1537
Survivability is defined as the capability of a platform to avoid or withstand a man-made hostile environment. Military aircraft in particular, but also other kinds of platforms subjected to external, impacting threats, are commonly designed according to increasing survivability requirements. The concept of survivability was first formalized by R. Ball in 1985 in its seminal work on combat aircraft survivability. On the basis of the theory presented in his work, many computer programs have been developed which implement the modelling techniques and computations required by vulnerability assessments. However, a clear and general view of the operative computational procedures is still lacking. Moreover, to date only a limited number of applications to helicopter platforms have been investigated in the survivability field, even though these platforms experience numerous flight conditions exposing the system to different types of threats. In this context, this work aims at establishing a multi-purpose general framework for the vulnerability assessment of different types of platforms subjected to external threats, with a focus on helicopters. The in-house software specifically developed for this application is here described in detail and employed to present a case study on a representative military helicopter. 相似文献
13.
14.
15.
16.
飞机机翼结构损伤仿真研究 总被引:1,自引:0,他引:1
飞机结构的战伤模式及战伤程度预测对于制定战场抢修预案及改进战斗生存力设计具有重要意义。采用计算机模拟仿真技术定量分析了飞机机翼结构遭受射弹攻击后的损伤情况。通过损伤仿真讨论了3类情形,一是机翼结构受到简单的侵彻后的冲击效应;二是高速射弹攻击带有翼盒的机翼,而产生流体动力冲压效应;三是在射弹冲击模型中增加爆炸条件,研究射弹以任意角度冲击不同的位置产生的耦合效应。基于AN SY S/LS-DYNA仿真,给出了机翼结构损伤的结果,结论为战伤飞机战场抢修的快速评估提供了科学依据,也为飞机平时修理提供了参考。 相似文献
17.
Bai-gang Mi 《防务技术》2021,17(3):987-1001
Accurately evaluating the aerodynamic performance of a battle-structure-damaged aircraft is essential to enable the pilot to optimize the flight control strategy. Based on CFD and rigid dynamic mesh techniques, a numerical method is developed to calculate the longitudinal and longitudinal-lateral coupling forces and moments with small amplitude sinusoidal pitch oscillation, and the corresponding dynamic de-rivatives of two fragment-structure-damaged and two continuous-rod-damaged models modified from the SACCON UAV. The results indicate that, at the reference point set in this paper, additional positive damping is generated in fragment-damaged configurations; thus, the absolute values of the negative pitch dynamic derivative increase. The missing wingtip induces negative pitch damping on the aircraft and decreases the value of the pitch dynamic derivative. The missing middle wing causes a noticeable increase in the absolute value of the pitch dynamic derivative;the missing parts on the right wing cause the aircraft to roll to the right side in the dynamic process, and the pitch-roll coupling cross dynamic derivatives are positive. Moreover, the values of these derivatives increase as the damaged area on the right wing increases, and an optimal case with the smallest cross dynamic derivative can be found to help improve the survivability of damaged aircraft. 相似文献
18.
19.
采用半实物仿真方法研究了综合火力/飞行控制系统的动态特性、作战有效性和工程实现的可行性。文中给出了系统的数学模型、系统的硬件结构和仿真试验结果。结果表明,综合火力/飞行控制系统可以减少瞄准过程时间,增加可射击时间,提高瞄准精度和系统稳定性,扩大攻击范围(全向攻击),减轻飞行员工作负担,提高载机生存力。因而是很有发展前途的一种航空火力控制新概念。实验也表明工程实现是可能的。 相似文献