自行火炮状态维修决策支持系统

针对现阶段自行火炮定期维修中存在问题,为了预防自行火炮的故障以及缩短维修时间,提高自行火炮维修的针对性和有效性,在自行火炮维修中引入了基于状态的维修(Condition Based Maintenance,CBM),从工程应用的角度出发,设计并开发了自行火炮状态维修决策支持系统(CBMDSS),明确了系统设计的目标,构建了系统的总体结构,详细阐述了系统实现的具体功能,应用Visual Studio.Net及Matlab相结合的程序开发语言开发了自行火炮状态维修决策支持系统,对自行火炮开展状态维修具有十分重要的使用价值。     

反舰导弹主从式协同攻击样式

针对群弹系统执行攻击任务时,从弹按照主从式协同攻击样式跟随领弹实施攻击,利用领弹与从弹的位置信息解算出相对距离和角度,依据相对距离和角度误差的动力学特性,建立了主从式协同攻击样式的非线性数学模型,采用输出线性化理论设计了主从式协同攻击样式的控制律,证明了该控制律及其内动态系统的稳定性.仿真表明,在领弹机动条件下,实现了对从弹的速度和弹道偏航角的控制,从弹能保持与领弹的相对距离和弹道偏航角均快速收敛并稳定到期望值.     

卧式储油罐罐体变位模型与罐容表标定

针对储油罐罐体变位影响油品计量精度的问题,建立了球冠形封头卧式储油罐罐体变位模型,将罐体变位后的油位高度转换成无变位时的油位高度,再利用罐体无变位时的储油体积计算模型得到变位后储油体积与油位高度的关系。分析了罐体变位对罐容表的影响,提出了一种基于最小二乘原理的变位参数识别算法,最后对该变位模型进行了检验,并采用插值算法重新标定了变位后的罐容表。结果表明:该变位模型与实际情况基本相符,变位参数识别算法能估计出罐体倾斜角度和偏转角度。     

关系数据语义集成中的查询语言转换方法研究

为解决关系数据语义集成中语义查询语言和关系模型查询语言的转换问题,定义了SPARQL(Simple Protocol And Rdf Query Language)图模式的关系代数和五种基本运算的查询语义,给出了该关系代数与SQL语句之间的对应关系,在此基础上,提出了SPARQL到SQL的查询转换算法,并通过实例进行了说明。     

卫星通信新技术专题讲座(二) 第3讲 基于分段累加的大频偏估计算法

文章提出了一种基于分段FFT累加的前向频率估计算法,该算法不需要位定时辅助,只要采样频率足够高,即能适合于各种频偏的信号。该算法仅需要较短长度的FFT运算,并通过采用多段累加的方式提高估计效果。仿真表明,该算法可以在极低信噪比以及大频偏条件下获得令人满意的估计精度。     

【专题】智能化装备检测能力建设研究

装备检测是装备性能监测、故障预测和诊断、健康管理、战斗力评估和再生的基础和前提。随着大数据、云计算、智能算法、智能芯片等智能化技术的突破性发展,军事智能化时代已经在全球兴起,并驱动装备体系向信息化、智能化方向发展。针对信息化、智能化装备综合性强、技术性高、战斗力强及结构复杂等特点,本文首先给出了装备检测的意义,然后分析了智能化装备检测面临的问题,最后从构建科学化规范化装备检测标准、智能化检测系统、多样化检测方法、智能化数据处理和智能化检测人才队伍建设五个方面给出智能化装备检测能力建设的意见和措施,以期为未来军队智能化装备检测能力建设提供一定的科学理论支撑。     

Partial penetration of annular grooved projectiles impacting ductile metal targets

Changing and optimizing the projectile nose shape is an important way to achieve specific ballistic performance. One special ballistic performance is the embedding effect, which can achieve a delayed high-explosive reaction on the target surface. This embedding effect includes a rebound phase that is significantly different from the traditional penetration process. To better study embedment behavior, this study proposed a novel nose shape called an annular grooved projectile and defined its interaction process with the ductile metal plate as partial penetration. Specifically, we conducted a series of low-velocity-ballistic tests in which these steel projectiles were used to strike 16-mm-thick target plates made with 2024-O aluminum alloy. We observed the dynamic evolution characteristics of this aluminum alloy near the impact craters and analyzed these characteristics by corresponding cross-sectional views and numerical simulations. The results indicated that the penetration resistance had a brief decrease that was influenced by its groove structure, but then it increased significantly-that is, the fluctuation of penetration resistance was affected by the irregular nose shape. Moreover, we visualized the distribution of the material in the groove and its inflow process through the rheology lines in microscopic tests and the highlighted mesh lines in simulations. The combination of these phenomena revealed the embed-ment mechanism of the annular grooved projectile and optimized the design of the groove shape to achieve a more firm embedment performance. The embedment was achieved primarily by the target material filled in the groove structure. Therefore, preventing the shear failure that occurred on the filling material was key to achieving this embedding effect.     

Pressure relief of underground ammunition storage under missile accidental ignition

Safety of underground ammunition storage is an important issue, especially during the accidental ignition of missiles. This work investigates the pressure and temperature distribution of the multi-layer underground ammunition storage with a pressure relief duct during the accidental ignition process of the missile. A large-scale experiment was carried out using a multi-layered restricted space with a pressure relief duct to simulate the underground ammunition store and a solid rocket motor to simulate the accidental ignition of the missile. The results show that when the motor gas mass flow increased by 5.6 times, the maximum pressure of the ammunition storage increased by 5.87 times. At a certain motor flow rate, when the pressure relief exhaust area at the end of the relief duct was reduced by 1/2, the maximum pressure on the first layer did not change. But the rate of pressure relief was reduced and the time delayed for the pressure of ammunition store to drop to zero. In this experiment, when the motor ignition position was located in to the third layer ammunition chamber, the maximum pressure was reduced by 32.9％ and also reduced the rate of change of pressure. In addition, for the experimental conditions, the theoretical analysis of the pressure relief of the ammunition storage is given by a simplified model. Based on the findings, some suggestions to the safety protection design of ammunition store are proposed.     

基于智慧校园建设推进军队院校教育现代化路径探究

教育信息化是教育现代化的基本内涵和显著特征。当前,我国正处于由基本实现教育现代化迈向整体实现教育现代化的重要战略期,国家教育从理论和实践层面进行了大量探索。在军队院校教育领域,教育技术应用、训练管理领域网络建设、数字校园建设等均为军队院校教育现代化奠定了创新发展基础,智能教育应用模式的改革探索也为军队院校教育现代化描绘了未来建设愿景。本文认为,推进军队院校教育现代化应发挥智慧校园建设平台的基础作用,充分融入国家教育体系,注重以先进教育理念驱动创新发展、以前沿信息技术提供解决方案、以总体架构设计规范目标功能、以智慧育人环境承载应用服务、以数据资源体系孕育智慧生态,走开军委军种院校三级联动推动创新发展的路子。     

Vondrak-Cepek组合滤波在北斗共视和卫星双向时间比对融合中的应用

为减小卫星双向时间比对(Two-Way Satellite Time and Frequency Transfer, TWSTFT)中的周日效应,利用北斗共视链路没有周日效应的特点,通过Vondrak-Cepek组合滤波方法对中国科学院国家授时中心(National Time Service Center, NTSC)、德国物理技术研究院(Physikalisch-Technische Bundesanstalt, PTB)以及中国计量科学研究院(National Institute of Metrology, NIM)间的北斗共视时间比对结果分别与硬件卫星时间和距离测量设备(SAtellite Time and Ranging Equipment, SATRE) TWSTFT和软件接收机(Software-Defined Radio, SDR)TWSTFT结果进行了融合处理。采用时间偏差和幅值频谱两个指标以及GPS精密单点定位(Precise Point Positioning, PPP)时间比对分别对融合结果进行内外符合评估。结果表明,经过Vondrak-Cepek滤波的融合结果中周日效应基本消失,其与GPS PPP链路差值结果的绝对值保持在链路校准的不确定度范围内。对于长基线NTSC-PTB链路,融合结果1 d的时间偏差稳定度对SATRE和SDR TWSTFT的增益因子分别为1.85和1.81;对于短基线NTSC-NIM链路,融合结果对SATRE和SDR TWSTFT的增益因子分别为1.69和1.59。融合结果的短期稳定度显著提高。