Simulation on the dynamic stability derivatives of battle-structure-damaged aircrafts

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.     

Preparation and characterization of HMX/EVA/hBNNSs micro-composites with improved thermal stability and reduced sensitivity

Hexagonal boron nitride nanosheets(HBNNSs)have huge potential in the field of coating materials owing to their remarkable chemical stability,mechanical strength and thermal conductivity.Thin-layer hBNNSs were obtained by a liquid-phase exfoliation of h-BN powders and incorporated into EVA coatings for improving the safety performance of 1,3,5,7-tetranitro-1,3,5,7-tetrazocane(HMX).HBNNSs and ethylene-vinyl acetate copolymer(EVA)were introduced to HMX by a solvent-slurry process.For com-parison,the HMX/EVA and HMX/EVA/graphene(HMX/EVA/G)composites were also prepared by a similar process.The morphology,crystal form,surface element distribution,thermal decomposition property and impact sensitivity of HMX/EVA/hBNNSs composites were contrastively investigated.Results showed that as prepared HMX/EVA/hBNNSs composites were well coated with hBNNSs and EVA,and exhibited better thermal stability and lower impact sensitivity than that of HMX/EVA and HMX/EVA/G composites,suggesting superior performance of desensitization of hBNNSs in explosives.     

机场道面抢修应急起降带的确定

应急起降带的确定是战时机场道面抢修的基础性工作,对抢修工程量、抢修效率、抢修进程都有着重大影响.首先介绍了应急起降带合理尺寸的确定;然后提出了应急起降带最佳抢修位置的确定原则;为了实现应急起降带方案的快速优选,用VB编写了方案优选程序,改变了传统的人工优选法费时费力的现状.从文中的实例分析可以得出结论:该方案优选程序的运算结果满足实际抢修施工需要.     

远程监控在靶场指挥显示系统中应用探讨

靶场指挥显示系统具有结构复杂、地域分散的特点,维护难度大。通过对靶场指挥显示系统使用和维护现状的研究,引入远程监控的思想,采用C/S网络结构的远程控制技术,在现有指挥显示系统中增加远程监控功能,对分布式的指挥显示系统进行集中管理,提高了指挥显示系统软件的可靠性和维护性,在试验任务中取得了较好的效果。     

基于坐标转换的卡尔曼交互式多模型滤波算法

为解决舰炮火控系统中在笛卡尔坐标系中测量信息的互相关性,分析了目前舰炮火控系统中所用到的坐标系及其坐标变换,在瞄准线坐标系内建立了自适应滤波的交互式多模型算法,能够充分利用跟踪传感器的量测信息,在卡尔曼滤波中具有较强的自适应能力,通过与标准交互式多模型算法的对比验证,自适应交互式多模型算法在计算精度上明显好于标准交互式多模型算法。     

三维多站测向交叉定位算法及精度分析

在多站的测向交叉定位中,常把三维问题分解成二维和一维分别解算,这种方法虽简单易行,但定位精度有待进一步的提高。文中详细推算了这种算法的误差模型;然后给出一种用泰勒级数法结合最小二乘的思想进行定位的方法,并通过仿真计算证明了这种泰勒级数法的定位性能要优于前者。     

甲基三硫代膦酸二乙酯合成反应液的气相色谱-质谱分析

在OPCW第18次水平考试土样中检测到一未知化合物,经多种分析技术测定,判断可能是甲基三硫代膦酸二乙酯．对合成甲基三硫代膦酸二乙酯的反应液进行了气相色谱一质谱测定,并对此反应液中的部分产物进行了质谱解析．     

测控站布局对区域卫星导航系统的影响

建立区域卫星导航系统的测控网是卫星导航系统要解决的关键问题之一。讨论国内测控站的布设问题,采用网格计算方法分析国内测控站对导航星座的可观测性。引入位置精度衰减因子PDOP和定轨中的法矩阵条件数,分析测控网对导航星座的观测几何结构强度以及测站位置分布对轨道确定精度的影响,仿真结果表明,利用我国有限的国土跨度和航天测控资源可以确保对导航卫星的测控任务的完成。对在国外布设测控站进行讨论和仿真,结果说明位于国外的测控站(如可在澳大利亚的珀斯设站)的加入能明显改善观测的几何结构强度、提高导航卫星的轨道精度。     

直扩信号侦收技术研究

DS信号是一种具有优良电子防御能力的新型通信信号,广泛运用于军事、民用通信系统中。对抗这种技术的侦察手段目前还没有取得实用性的进展,因此,需开展大量的理论和实践工作。总结了在低信噪比下对直接序列扩频信号侦收的方法,并比较各个方法的优缺点,探讨了其中一些关键问题和新技术途径。     

SAR抗干扰措施及效果度量研究

SAR作为一种军用雷达,其电子对抗与反对抗是永恒的主题。分析了SAR针对有源噪声干扰可采取的一系列抗干扰技术措施(ECCM),同时研究了ECCM后的效果度量,最后介绍了一种新的度量方法——干扰等功率曲线,将SAR抗干扰效果定量、直观地表现出来。