鲁棒稳定控制器的参数化设计方法

基于特征结构配置参数化方法,讨论了一类匹配的不确定线性系统的鲁棒控制问题,目的是设计鲁棒稳定控制器,使不确定闭环线性系统的特征值始终位于复平面的左半平面中某扇形区域内.给出了该鲁棒稳定控制器存在的充分条件及其参数化表示,可进一步利用其自由度满足某些设计要求.给出的数值例子,表明了鲁棒稳定控制器参数化设计方法的有效性.     

基于非齐次线性方程组的认证协议的研究

认证技术是信息安全理论与技术的一个重要方面.认证技术主要包括用户认证和信息认证2个方面.前者用于鉴别用户身份,后者用于保证信息的真实来源.本文基于线性代数的方程组的解的理论建立了一种身份认证协议和一种消息认证协议.通过安全性分析结果表明这个新的身份认证协议能够保证用户身份的正确认证,新的信息认证协议能够保证数据的机密性、完整性,同时能够防止重传攻击认证信息来源.     

军队生态营区评价指标体系构建

论述了军队生态营区的概念和建设目标,探讨了营区生态环境质量的评价方 法。针对现状,基于调研,建立了生态营区评价指标体系和评价模型,提出了具体的评估办 法。旨在通过对营区生态系统科学、客观、完整的评价,探讨营区生态系统结构、功能及其动 态变化,找出营区生态系统存在的问题,为做好营区规划和对现有生态环境受到损害的营区 进行恢复与重建,提供科学依据。     

空中目标威胁评估技术

对空中目标进行威胁评估是防空C3I数据融合系统中非常重要的一个模块,威胁评估准确程度将对防空作战的结局产生重大影响。文中首先构建了威胁评估的指标体系,基于模糊隶属函数对各指标进行了量化处理。然后在分析威胁隶属度构成的向量满足比较序列的前提下,应用灰色关联度分析对空中目标进行威胁评估与排序。最后给出了一个实例,得到的结果与专家群体评议后的结果完全一致。     

航天遥感监测信息态势感知能力分析

针对遥感监测信息的效用评估问题,提出了一种态势感知能力定量分析的新方法。首先利用NIIRS等级尺度和GIQE模型建立了遥感图像与地面目标检测率之间的联系,由此得到这些目标在监视区域出现的概率分布。然后,以地面目标在监视区域的实际分布表示使用者信息需求,并利用信息理论中的Kullback Leibler距离来度量不确定性分布和信息需求之间的差异,从而得到不同遥感侦察与监视系统态势感知能力曲线,给出了传输处理时延对态势感知能力曲线的影响。     

教材管理信息系统的设计与实现

通过对教材管理工作实现目标与业务流程进行的分析和探讨,确定了教材管理信息系统的设计方案与数据组成,结合实例阐述了以Delphi7.0作为开发工具的系统实现过程。     

自动消防系统在大型聚集场所火灾中的应用

分析大型公共聚集场所(如商场、会展中心、写字楼、公共娱乐场所等)火灾事故特点,并有针对性地说明了自动消防系统的作用,着重阐述了在火灾抢险救援中如何充分利用这些设施,以减少人员伤亡和财产损失,提高灭火成效。     

自组装SiO2光子晶体线形阵列

采用溶剂蒸发技术在硅槽内对自制的SiO2微球进行组装,获得了具有显著光子带隙特征的SiO2光子晶体线形阵列,与平坦表面生长的光子晶体相比,微球在微槽内的自组装行为受到了明显的限制作用.     

Evaluating methods for the reliability of a large 2‐dimensional rectangular k‐within‐consecutive‐(r,s)‐out‐of‐(m,n):F system

A 2‐dimensional rectangular k‐within‐consecutive‐(r, s)‐out‐of‐(m, n):F system consists of m × n components, and fails if and only if k or more components fail in an r × s submatrix. This system can be treated as a reliability model for TFT liquid crystal displays, wireless communication networks, etc. Although an effective method has been developed for evaluating the exact system reliability of small or medium‐sized systems, that method needs extremely high computing time and memory capacity when applied to larger systems. Therefore, developing upper and lower bounds and accurate approximations for system reliability is useful for large systems. In this paper, first, we propose new upper and lower bounds for the reliability of a 2‐dimensional rectangular k‐within‐consecutive‐(r, s)‐out‐of‐(m, n):F system. Secondly, we propose two limit theorems for that system. With these theorems we can obtain accurate approximations for system reliabilities when the system is large and component reliabilities are close to one. © 2005 Wiley Periodicals, Inc. Naval Research Logistics, 2005     

Approximations and empirics for stochastic war equations

The article develops a theorem which shows that the Lanchester linear war equations are not in general equal to the Kolmogorov linear war equations. The latter are time‐consuming to solve, and speed is important when a large number of simulations must be run to examine a large parameter space. Run times are provided, where time is a scarce factor in warfare. Four time efficient approximations are presented in the form of ordinary differential equations for the expected sizes and variances of each group, and the covariance, accounting for reinforcement and withdrawal of forces. The approximations are compared with “exact” Monte Carlo simulations and empirics from the WWII Ardennes campaign. The band spanned out by plus versus minus the incremented standard deviations captures some of the scatter in the empirics, but not all. With stochastically varying combat effectiveness coefficients, a substantial part of the scatter in the empirics is contained. The model is used to forecast possible futures. The implications of increasing the combat effectiveness coefficient governing the size of the Allied force, and injecting reinforcement to the German force during the Campaign, are evaluated, with variance assessments. © 2005 Wiley Periodicals, Inc. Naval Research Logistics, 2005.