指挥实体建模与仿真研究

对国内外较为典型的指挥实体建模与仿真应用情况进行了介绍.对指挥实体建模与仿真的三个主要内容-任务规划、指挥控制和作战行动协同所采用的各关键技术手段和方法进行了较为深入的分析.指出了指挥实体建模与仿真在应用和技术手段上的发展趋势.     

军工企业安全标准体系建立初探

建立企业安全生产标准体系，是推动企业建立具有军工特色规范化和标准化的现代企业安全生产管理体系的有效途径。本文分析了军工企业安全生产标准体系建立必要性、原则和要求，阐述了体系结构层次及其建立方法，提出了正确处理与企业安全管理体系衔接和建立动态管理机制等要求。     

浅析提高信息系统软件测试质量的途径

随着信息技术为核心的高新技术在军事信息系统中应用的不断深入，作为信息系统核心部分的软件系统质量成为影响系统效能与可靠性的关键。如何有效保证软件系统质量、提高信息系统的可靠性成为目前我军亟需解决的重要问题。本文从软件工程的角度出发，针对信息系统中的软件系统，结合软件测试技术的发展和我军信息系统的现状，提出了提高军事信息系统软件测试质量的几种途径。     

Optimum step‐stress accelerated life test plans for log‐location‐scale distributions

This article presents new tools and methods for finding optimum step‐stress accelerated life test plans. First, we present an approach to calculate the large‐sample approximate variance of the maximum likelihood estimator of a quantile of the failure time distribution at use conditions from a step‐stress accelerated life test. The approach allows for multistep stress changes and censoring for general log‐location‐scale distributions based on a cumulative exposure model. As an application of this approach, the optimum variance is studied as a function of shape parameter for both Weibull and lognormal distributions. Graphical comparisons among test plans using step‐up, step‐down, and constant‐stress patterns are also presented. The results show that depending on the values of the model parameters and quantile of interest, each of the three test plans can be preferable in terms of optimum variance. © 2008 Wiley Periodicals, Inc. Naval Research Logistics, 2008     

结合新的时代条件发扬长征精神

新的历史条件下,认真学习长征历史,系统总结长征经验,深入挖掘长征精神内涵,大力弘扬长征精神,对于保持和发展党的先进性,全面贯彻落实科学发展观,有效履行新世纪新阶段我军历史使命,具有重要的时代意义。     

虹膜内边缘定位的齿形变换方法

提出了一种新颖简单的虹膜内边缘(瞳孔)定位算法.此算法分别对虹膜图像的每一行进行处理.首先,采用一种简单的齿形变换对虹膜图像每一行的灰度曲线进行变换,变换后的灰度曲线为齿形并且虹膜内边缘点出现在齿形曲线的转折点处.然后,根据在虹膜内边缘点处齿形灰度曲线的斜率由负值变为正值的特点,检测虹膜内边缘点并定位虹膜内边缘的位置.此算法具有新颖、简单、准确和速度快等特点.     

雷达组网系统标准体系研究

本文探讨了雷达组网系统的标准体系，提出了标准体系结构框架，对标准的采用情况进行了介绍，对标准的需求和发展进行了分析。     

An interface shear damage model of chromium coating/steel substrate under thermal erosion load

The Cr-plated coating inside a gun barrel can effectively improve the barrel's erosion resistance and thus increase the service life.However,due to the cyclic thermal load caused by high-temperature gun-powder,micro-element damage tends to occur within the Cr coating/steel substrate interface,leading to a gradual deterioration in macro-mechanical properties for the material in the related region.In order to mimic this cyclic thermal load and,thereby,study the thermal erosion behavior of the Cr coating on the barrel's inner wall,a laser emitter is utilized in the current study.With the help of in-situ tensile test and finite element simulation results,a shear stress distribution law of the Cr coating/steel substrate and a change law of the interface ultimate shear strength are identified.Studies have shown that the Cr coating/steel substrate interface's ultimate shear strength has a significant weakening effect due to increasing temperature.In this study,the interfacial ultimate shear strength decreases from 2.57 GPa(no erosion)to 1.02 GPa(laser power is 160 W).The data from this experiment is employed to establish a Cr coating/steel substrate interface shear damage model.And this model is used to predict the flaking process of Cr coating by finite element method.The simulation results show that the increase of coating crack spacing and coating thickness will increase the service life of gun barrel.     

Theoretical and numerical simulation study on jet formation and penetration of different liner structures driven by electromagnetic pressure

The use of a shaped liner driven by electromagnetic force is a new means of forming jets. To study the mechanism of jet formation driven by electromagnetic force, we considered the current skin effect and the characteristics of electromagnetic loading and established a coupling model of"Electric—Magnetic—Force"and the theoretical model of jet formation under electromagnetic force. The jet formation and penetration of conical and trumpet liners have been calculated. Then, a numerical simulation of liner collapse under electromagnetic force, jet generation, and the stretching motion were performed using an ANSYS multiphysics processor. The calculated jet velocity, jet shape, and depth of penetration were consistent with the experimental results, with a relative error of less than 10％. In addition, we calculated the jet formation of different curvature trumpet liners driven by the same loading condition and ob-tained the influence rule of the curvature of the liner on jet formation. Results show that the theoretical model and the ANSYS multiphysics numerical method can effectively calculate the jet formation of liners driven by electromagnetic force, and in a certain range, the greater the curvature of the liner is, the greater the jet velocity is.     

Investigate the effects of magnetic fields on the penetration ability of a shaped charge jet at different standoffs

The influence of a magnetic field on the stability of a shaped charge jet is experimentally investigated at standoffs of 490, 650 and 800 mm. The experimental results without and with the magnetic field are compared in terms of the shaped charge jet form, stability and penetration ability. A theoretical model based on one-dimension fluid dynamics is then developed to assess the depth of penetration of the shaped charge at those three standoffs and magnetic conditions. The results show that the penetration capability can be enhanced in more than 70% by the magnetic field. The theoretical calculations are compared with the experimental results with reasonably good correlation. In addition, the parameters introduced in the theory are discussed together with the experiments at three standoffs studied.