利用拖尾能量提高蝶形天线辐射效率

蝶形天线在探地雷达中已有广泛的运用,但其辐射效率不高的问题一直存在。究其原因,主要是将近70%的辐射能量是以有碍目标探测的拖尾的形式存在。为了保证探测性能,传统上可观的拖尾能量往往以阻抗加载的方式被吸收掉。本文研究发现,当选择双极性单周波作为激励脉冲时,通过优化天线长度可以实现拖尾能量的有效利用,从而显著地提高蝶形天线的辐射效率。仿真实验结果表明,在较远的探测距离上本文方法可以将辐射效率提高近100%。通过实测实验进一步验证了本文方法的有效性。此外,本文所提的方法易于工程实现,工程应用价值十分明显。     

面向航迹中断的模糊航迹关联算法

针对海战场态势中,由于系统误差、电磁干扰、地理环境隔绝、电子静默等原因,出现的传感器信号长时间中断、目标丢失,导致态势中航迹不连续的问题,提出了一种改进的模糊航迹关联算法.该算法通过采用统一速度模糊因素和方向模糊因素、改进加速度模糊因素、制定二级关联策略和自动调整隶属度函数关联阈值等方法,实现了在目标机动性较强、中断时间较长等情况下的航迹关联,保证了态势的稳定.通过Monte Carlo仿真实验表明,该算法具备较高的关联性和鲁棒性.     

基于相位差-频率拟合的宽带信号数字测向方法

提出了一种基于双阵元的宽带信号测向方法,该方法根据两阵元接收信号互谱的相频特性,采用直线拟合的方法可精确获得信号到达两阵元的时延参数,进而估计出信号的到达角.该方法所需阵元数少,不存在测向模湖,运算量小,易于工程实现.仿真实验表明,应用此方法可对宽带信号实时测向且有较高的估计精度.     

环境影响下的时滞耦合作战决策同步模型

为了量化描述作战体系的决策同步性能,从时间视角,结合环境影响因素提出作战沟通与作战决策同步衡量指标,并分2个阶段建立了具有时滞耦合特点的作战决策同步模型.案例仿真表明,该模型解决了以往基于群体沟通模式造成决策意见不一致的缺点,并能反映出不同环境因素下对作战决策同步性能的影响,验证模型有效可行.     

基于群集的多机器人编队控制

利用图论表示机器人编队模型,用改进的邻接矩阵表示机器人之间的位置关系,用人工势场法对多机器人编队群集运动进行控制,改进的控制律可以使多机器人达到希望的队形,并共同以预定的速度行进。然后用李亚普诺夫稳定性理论进行分析,得出在此控制律下的多机器人系统可以进行稳定的编队群集运动。     

基于对抗的防空体系结构演化性概念建模

为定量研究空防体系对抗过程,基于对空防体系对抗相关研究方法分析,提出从体系结构角度研究空防体系对抗.通过阐述对抗条件下的防空体系结构演化性建模思想,提出空防体系对抗实质是一个防空体系结构“动态编成—对抗消耗—优化修复”动态循环演化过程.在此基础上,围绕其中3个环节进行防空体系结构演化性概念建模,以此为空防体系对抗定量建模研究提供一种新思路.     

基于凸优化理论的三维微分对策制导规律求解

针对三维微分对策制导律(DGL)求解问题,引入凸优化理论,将DGL求解归结到Hamilton系统的求解,设计了DGL求解算法,通过对代价函数梯度特征的凸分析,推导出对策系统鞍点存在的充要条件和求解方法,解决了以往通过对微分对策模型简化求解导致的模型不能客观反映作战过程的问题.     

Effects of Mg/PTFE pyrotechnic compositions on reignition characteristics of base bleed propellants and heating mechanism

The effects of magnesium/polytetrafluoroethylene (Mg/PTFE) pyrotechnic compositions on the coupled flow field and reignition mechanism are important aspects governing the performance and range of base bleed projectiles (BBPs).Owing to a decrease in pressure and temperature when the BBP leaves the muzzle,rapid depressurization occurs,which extinguishes the base bleed propellant.The Mg/PTFE py-rotechnic composition pressed in the igniter of the base bleed unit (BBU) provides additional energy to the BBU via a chemical reaction.Thus,the extinguished base bleed propellant is reignited under the effect of high-temperature combustion gas jets from the igniter.In this study,a numerical analysis is conducted to evaluate the effects of PTFE and Mg granularity as well as Mg/PTFE pyrotechnic compo-sitions.Owing to the rapid depressurization,the temperature and pressure was found to decrease for different Mg/PTFE pyrotechnic compositions.However,the depressurization time increased as the PTFE granularity increased,the Mg granularity decreased,and the Mg content increased.When the pressure in the combustion chamber of the BBU decreased to the atmospheric pressure,the combustion gas jets from the igniter expand upstream (rather than downstream).However,these combustion gas jets exhibit different axial and radial expansion characteristics depending on the pyrotechnic compositions used.The results show that the reignition delay time,td,of the base bleed propellant was 377.608,94.27,387.243,523.966,and 221.094 ms for cases A-E,respectively.Therefore,it was concluded that the Mg/PTFE pyrotechnic composition of case B was the most beneficial for the reignition of the base bleed propellant,with the earliest addition of energy and mass to the BBP.     

Effects of module number and firing condition on charge thermal safety in gun chamber

Thermal safety of modular charge which is fed into and retained in the chamber after gun fires consecutively is first investigated with cook-off method.A two-dimensional cook-off model of modular charge in gun chamber is established and the cook-off process of modular charge in gun chamber is numerically simulated.Then the effects of module number and firing condition on charge thermal safety are evaluated by researching the cook-off response characteristics of modules.The results show that,under conditions of different module numbers the cook-off responses all occur on the module closest to the boundary of missile,and the single-base propellants located at the inner surface of cartridge ignite first.When the number of loaded module changes from 1 to 6,the cook-off response temperatures vary little,only in a small range of 478.1 K-482.4 K.The cook-off response times decrease logarithmically in the range of 211.2 s-166.7 s with the increasing length of residual air gap in gun chamber.The simulation results are well matched with the experimental data.Furthermore,different firing conditions have great influence on the cook-off response time,minor influence on the initial response position and little in-fluence on the response temperature.Under the three conditions of consecutive 32 launches with 5 rounds/min,43 launches with 1 round/min,and 41 launches with different firing frequencies,the cook-off response temperatures are 479.2 K,481.1 K and 479.9 K respectively and the response times are 709.2 s,211.2 s and 214.4 s respectively.The response position is near the middle area of the inner cartridge surface in the former condition and near the right area in the latter two conditions.