永磁同步电机在数字炮控系统中的应用研究

从坦克现装备改造的实际需要出发,采用矢量控制方法,设计了以高性能单片机87C196MC为控制核心,以第3代智能功率模块(IPM)为逆变器主体的数字化永磁同步电动机(PMSM)调速系统。在电流环中采用PI调节器使定子电流跟踪给定电流,用双边对称的规则采样法生成正弦脉宽调制波(SPWM),将速度环设计成典型的Ⅱ型系统。     

分布式麦克风阵列的声源定位

声定位探测技术的无源被动特性,使其在定位技术研究领域内独树一帜,时延估计和定位算法是支持这一技术的核心。DUET时延估计算法简单,通过对接收到的信息分段帧移加窗处理,能够有效识别有用语音信息,时延估计精度较高,在高噪声的环境中非常适用;球面定位算法是基于时延估计提出的,对麦克风的排列形式不固定,适用于任意排布的麦克风阵列,并且在时延估计精度较高的情况下,能够很准确地对声源目标进行定位。     

钨球破片对相控阵雷达天线的冲击损伤仿真

利用非线性动力分析软件LS-DYNA 3D,建立了钨球破片在击穿相控阵雷达天线部件下的毁伤仿真模型.对不同初速度的钨球破片以45°入射角对天线等效靶板的侵彻进行仿真分析,得到了钨球破片整个侵彻作用全过程的完整图像和主要数据.通过对结果图像与数据的分析得出:随着钨球破片初速度增大,剩余速度也会随之增大、击穿靶板所需杀伤动能变大、靶板质量损失变大.结论为相控阵雷达天线的战损快速评估与平时修理提供了科学的依据和参考.     

球齿轮行星传动结构型式与驱动机构分析

介绍了一种由渐开线球齿轮传动组成的新型空间运动行星轮系及其驱动机构,并对该机构进行了详细的结构分析和运动分析。新机构由系杆框架和一对球齿轮组成,输出轴能实现全方位的空间摆动。设计了一种空间驱动机构,用来实现系杆框架定点球面运动的姿态控制,对驱动机构的可动性进行了分析,建立了轮系输出轴的姿态角与控制电机之间的运动学模型,实现了输出轴偏转角的精确控制。     

粘弹性介质中球形空腔嵌入层的共振特性研究

潜艇吸声覆盖层在低频对抗主动声纳的探测是目前面临的一个重要技术难题.利用空腔共振时的吸收是解决低频吸声问题的一种有效途径.文中在假设入射球形纵波完全被腔壁反射的情形下,对球形空腔嵌入层的共振特性进行了理论分析.结果表明,在粘弹性介质中嵌入适当厚度的低剪切波速包覆层能有效地降低空腔共振的频率.     

An exact method for finding shortest routes on a sphere,avoiding obstacles

On the surface of a sphere, we take as inputs two points, neither of them contained in any of a number of spherical polygon obstacles, and quickly find the shortest route connecting these two points while avoiding any obstacle. The WetRoute method presented here has been adopted by the US Navy for several applications. © 2016 Wiley Periodicals, Inc. Naval Research Logistics 63: 374–385, 2016     

基于球齿轮的新型轮腿复合式移动平台设计研究

复合式移动系统是当前移动机器人研究的热点之一.总结了已有的一些轮-腿复合式移动系统的研究成果及结构特点,提出一种基于球齿轮机构的新型轮-腿复合式移动平台的结构设计方案,这种新型移动平台的轮腿机构具有不同于已有轮-腿复合式移动系统独特的运动特征,在结构上可实现"轮"、"腿"的真正融合,使得平台具有轮式、腿式和轮-腿复合三种移动模式,可实现直行、斜行、小半径转弯甚至原地转弯等多种运动姿态.对轮腿机构进行了计算机虚拟模型运动仿真研究,并对平台样机进行了姿态调整实验,结果表明这种新型移动平台能够实现设定的多种复杂运动姿态.     

球形破片侵彻明胶运动模型及破片参数敏感性分析

为揭示球形破片对人体组织致伤机理,以明胶作为人体组织的替代物,基于动态空腔膨胀理论,考虑球形破片未完全侵入阶段的速度衰减,建立了球形破片侵彻明胶的分段运动理论模型,研究了球形破片侵彻明胶的运动规律。通过钢球和钨球侵彻明胶的实验验证了模型的正确性,求解了模型中的最优阻力系数。分析了理论计算过程中的误差来源,并推导得到了无量纲侵彻深度的表达式。利用Sobol′法进行了球形破片参数(直径、密度和速度)对侵彻深度影响的敏感性分析。结果表明：运动模型能够较好地模拟球形破片的运动规律;低密度的球形破片在未完全侵入阶段的速度衰减不能忽略;球形破片参数对侵彻深度影响的敏感性由高到低依次是速度、密度和直径。     

球形光电成像跟踪转台的螺旋式扫描及控制方法

采用球形电机作为光电成像跟踪转台的旋转机构,研究一种新型高集成度和超大视场的光电成像跟踪系统。针对球形转台的特殊结构和旋转特点,分析了转台在三维空间中进行螺旋式扫描的特性,并设计了相应的控制方法,采用实四元数组作为转台旋转控制的数据结构。仿真结果表明,球形转台可以按预先设置的参数进行旋转,避免了空间的漏扫。     

Resistance of grid steel-tube-confined concrete targets against projectile impact: Experimental investigation and analytical engineering model

Steel-tube-confined concrete (STCC) targets are provided with excellent anti-penetration performance over semi-infinite concrete (SIC) targets since the steel tube imposes passive restraint on the in-filled concrete during the penetration process. Grid STCC system with square steel tubes is a potential solution to protective structures. In this paper, experiments of 9-cell grid STCC targets penetrated by 12.7 mm Armor Piercing Projectile (APP) were performed. The influence of side length and thickness of steel tube, steel ratio and impact velocity on anti-penetration performance were taken into account. Additionally, single-cell square STCC targets were also designed and tested for comparison with the 9-cell grid STCC targets. Damage modes and parameters of the tested targets were measured and discussed. Moreover, the stiffness of radial confinement of grid STCC targets is achieved according to the elastic solution of infinite cylindrical shell in Winkler medium. Furthermore, the penetration resistance and depth of penetration (DOP) for grid STCC targets are obtained on the basis of the dynamic finite spherical cavity-expansion (FSCE) models including radial confinement effect. It is shown that the 9-cell grid STCC targets with optimal dimension match of thickness and side length of steel tube can reduce the DOP by about 17 % and 23 % in comparison with the SIC targets and single-cell square STCC targets, respectively, due to both the confinement of square steel tube to concrete in the impacted cell and the additional confinement of the surrounding cells to the impacted cell; the penetration resistance and DOP of the grid and cellular STCC targets with similar steel ratio is close, and thus the grid STCC targets with simpler manufacturing process and excellent in-plane expandability are preferred in engineering practice; moreover, the predicted results of DOP model based on the FSCE models agree well with the tested results with the maximum disparity less than 12 % and the proposed model is more applicable to the grid and cellular STCC targets with high radial confinement.