人机闭合半动跟踪系统仿真模型的建立

本文论述了指挥仪半自动跟踪系统的仿真建模方法,建立了传动系统工作方程式及等效结构图,介绍了描述测手跟踪特性的两种模型,最后给出了以59式指挥仪为研究对象的半自动跟踪系统模拟结构图。     

Numerical simulation study on penetration performance of depleted Uranium (DU) alloy fragments

Due to its high strength, high density, high hardness and good penetration capabilities, Depleted ura-nium alloys have already shined in armor-piercing projectiles. There should also be a lot of room for improvement in the application of fragment killing elements. Therefore, regarding the performance of the depleted uranium alloy to penetrate the target plate, further investigation is needed to analyze its advantages and disadvantages compared to tungsten alloy. To study the difference in penetration per-formance between depleted uranium alloy and tungsten alloy fragments,firstly, a theoretical analysis of the adiabatic shear sensitivity of DU and tungsten alloys was given from the perspective of material constitutive model. Then, taking the cylindrical fragment penetration target as the research object, the penetration process and velocity characteristics of the steel target plates penetrated by DU alloy frag-ment and tungsten alloy fragment were compared and analyzed, by using finite element software ANSYS/LS-DYNA and Lagrange algorithm. Lastly, the influence of different postures when impacting target and different fragment shapes on the penetration results is carried out in the research. The results show that in the penetration process of the DU and tungsten alloy fragments, the self-sharpening properties of the DU alloy can make the fragment head sharper and the penetrating ability enhance. Under the same conditions, the penetration capability of cylindrical fragment impacting target in vertical posture is better than that in horizontal posture, and the penetration capability of the spherical fragment is slightly better than that of cylindrical fragment.     

Study of high-speed-impact-induced conoidal fracture of Ti alloy layer in composite armor plate composed of Ti-and Al-alloy layers

In order to understand the mechanism of conoidal fracture damage caused by a high-speed fragment-simulating projectile in titanium alloy layer of a composite armor plate composed of titanium- and aluminum-alloy layers, the ballistic interaction process was successfully simulated based on the Tuler-Butcher and GISSMO coupling failure model. The simulated conoidal fracture morphology was in good agreement with the three-dimensional industrial-computed-tomography image. Further, three main damage zones (zones I, II, and III) were identified besides the crater area, which are located respectively near the crater area, at the back of the target plate, and directly below the crater area. Under the high-speed-impact conditions, in zone II, cracks began to form at the end of the period of crack formation in zone I, but crack formation in zone III started before the end of crack formation in zone II. Further, the damage mechanism differed for different stress states. The microcracks in zone I were formed both by void connection and shear deformation. In the formation of zone I, the stress triaxiality ranged from-2.0 to-1.0, and the shear failure mechanism played a dominant role. The microcracks in zone II showed the combined features of shear deformation and void connection, and during the for-mation process, the stress triaxiality was between 0 and 0.5 with a mixed failure mode. Further, the microcracks in zone III showed obvious characteristics of void connection caused by local melting. During the zone III formation, the triaxiality was 1.0-1.9, and the ductile fracture mechanism was dominant, which also reflects the phenomenon of spallation.     

利用线性平滑法实现屏幕汉字放大

本文分析了一般屏幕点阵汉字放大的方法及不足,提出使用线性平滑法提高汉字放大字符质量的思想,给出了线性平滑法实现高质量汉字放大的方法。此外,本文还介绍了不同汉字操作系统的识别方法及多种汉字字模获取的方法,为实现多种汉字字体放大提供了方便。     

导弹攻防对抗作战效能仿真分析方法论

本文介绍了在基于攻防对抗仿真的导弹作战效能分析时应该面对的四个主要环节，提出了采用攻防对抗仿真进行导弹作战效能分析的一般过程。该方法适用于各类导弹等武器系统攻防对抗仿真作战效能研究。     

炮兵营射击的弹着点模拟及射击误差分析

弹着点模拟是对敌火力打击目标毁伤仿真的重要环节。在分析炮兵营射击误差构成与计算方法的基础上,研究建立了炮兵射击的弹着点散布蒙特卡洛(Monte-Carlo)仿真模型,实现了对集火射向、适宽射向、三距离射击等多种火力打击方式共同作用下的弹着点散布模拟,为目标毁伤仿真研究提供了模型支持。以此为基础,通过分析各组误差对毁伤概率的影响,发现对于炮兵营打击面散布目标来说,营共同误差是影响毁伤概率的最显著因素,应当通过提高测定目标位置和气象准备的精度减小误差以提高对目标的毁伤效果。     

辅助通道参数模型估计射电天文抗干扰方法

针对单通道射电天文抗干扰方法在观测数据干噪比较低情况下的干扰消除性能降低甚至失效的问题,通过引入辅助天线观测提出了一种基于参数模型估计的抗干扰方法。该方法利用辅助天线所接收到的具有较高干噪比的观测数据建立干扰信号参数的估计模型,同时通过构建主辅通道参数差异性模型对估计模型进行修正,实现对干扰信号参数的精确估计,达到消除干扰信号的目的。仿真实验表明,相比于单通道方法,改进后的方法在解决低干噪比条件下的射电天文抗干扰问题方面具有更广泛的适用范围。     

战役优势参数及其应用研究

数学分析方法在军事行动计划中扮演着越来越显著的角色。对以兰彻斯特作战模型为基础的描述诸兵种合成作战的矩阵微分方程，以及由方程的控制矩阵和状态变量初值，在不解方程的情况下导出的战役优势参数进行了研究；以空战为例讨论了预测战役结局、辅助军事决策、优化兵力部署和规划火力分配等战役优势参数的主要应用；给出了对战役优势参数和数学模型的评价。     

弹道数据处理融合算法的并行计算

针对参考文献[1]中提出的融合多信源信息的融合算法,讨论了其中大计算量的测元遴选问题,并给出了它的并行算法。最后详细地分析了此并行算法的高效性和可扩展性,给出了加速比的仿真结果     

液体火箭发动机故障诊断的最优回归方法

提出了一种基于最优回归理论的液体火箭发动机故障诊断方法，可以在测量参数较少的情况下诊断出较多的发动机故障。当发动机故障不太严重、故障因素也不多时，得到比较满意的关于故障定位和故障大小的结果；在发动机故障比较严重的情况下，仍能得到比较好的故障定位结果；当存在多个故障因素时，诊断效能有所下降。结果表明本文所提方法在比较大的范围之内具有良好的效果。