有人机/无人机协同空地攻击效能评估的综合指数模型

研究了未来有人机/无人机协同空地攻击的典型作战模式,然后根据混合编队的作战过程和特点,提出了一种建立有人机/无人机协同空地攻击效能评估的综合指数模型;同时确定了综合指数模型中各分系统和分项能力的评估模型。最后以6种有人机和6种无人机的协同空地攻击效能评估为例计算并检验了模型的可用性。     

通信受限下分布式多传感器协同跟踪算法

在分布式多传感器目标跟踪系统中,由于局部融合中心(LFC)的物理限制(如:有限的频率信道、处理器容量有限等),只能接收有限个传感器的传送数据。此外,信息传输的方式也将影响传感网的使用寿命,因此,研究了通信受限下的分布式多传感器目标协同跟踪问题。首先对监视区内分布的传感器进行聚类分簇形成若干个子网,接着从通信能耗的角度出发,对传感器采集信息的传递路径进行最优路径规划;进而对子网局部状态进行估计,在子网信息融合中,分别采用最大距离和、最大化信息增量两种准则进行最佳传感器选择,最后通过各子网全局航迹融合实现分布式多传感器协同跟踪。仿真验证了算法的有效性。     

基于立方体理论的MFTA软件设计与实现

本文报道的MFTA(Multi-stateFaultTreeAnalysis)软件为可靠性工程师分析多状态系统提供一种计算机辅助分析工具。我们设计了友好的Windows95用户交互界面 ,采用树视图组件实现逻辑树结构框架的输入 ,采用字符串表格组件实现判定表的直接输入 (立方体形式的 0 -1序列 ) ,还实现了多态单调关联典型结构函数到立方体形式判定表的转化。以标准模板库 (StandardTemplateLibrary)为基础 ,采用面向对象程序设计方法构建了立方体类库 ;然后 ,实现了以立方体理论为核心的MFTA定性定量分析算法 ,完成了软件的研制。     

阶比谱分析与汽车起动电机故障的实时诊断

本文主要论述阶比谱分析方法及其在汽车起动电机故障实时诊断中的应用。首先阐述了阶比谱分析的原理以及阶比采样中混迭与泄漏的产生及其抑制方法,然后讨论了如何在起动电机运行过程短、升速快的情况下获取感兴趣的噪声信号,进而采用阶比谱分析方法从信号中提取故障特征信息,最后利用阀值判别法起动电机的故障进行实时诊断。     

15cm×15cm 磁悬挂天平系统(MSBS)的电磁场分析与计算

本文采用二维电磁场有限元法及磁路的简化计算法对15cm×15cm磁悬挂天平系统（MSBS）的阻力线圈间距、磁场的分布情况进行了分析计算,并与测试结果进行了分析比较,给出了15cm×15cm磁悬挂天平系统（MSBS）的结构方案。     

高超声速飞行器的弹道优化评估方法

高超声速飞行器弹道优化算法的综合评估对选取最优的弹道优化算法具有重要的参考意义。根据高超声速飞行器的特性,将其弹道分解为上升段、巡航段及俯冲段三个阶段,分别给出了各阶段的性能评价指标和对各阶段性能评价指标赋权的典型方法,并结合灰色关联度分析理论提出了弹道优化算法的综合评估方法。评估实例表明,该方法能定量地对多种弹道优化方法所生成的弹道进行综合性能评估,并能对备选优化方法的优劣进行排序。     

各向异性材料的有效弹性模量

在夹杂理论的基础上,采用用自洽法导出了含分布夹杂的各向异性弹性体的本构关系和有效弹性模量的细观力学表达式。本文得到的公式不仅可以处理含缺陷和损伤的材料的有效弹性模量,而且还可处理诸于纤维复合材料等各向异性材料的理论及有效弹性模量,从而为建立材料细观结构与宏观性能之间的关系提供了理论基础。     

一种新型CVD铁涂层吸波纤维

利用Fe(CO)5受热分解,以CVD方法在SiC纤维表面涂覆单质铁的涂层。研究表明,涂层的引入对SiC纤维力学性能基本没有损伤;纤维依靠涂层导电,其电阻率显著降低;改变工艺条件,可以在较大范围内调节涂层纤维的介电常数,同时也引入了磁损耗机制;采用较低的沉积温度和较高的载气流速,可以提高介电常数和磁导率,同时有好的频散效应。     

Analysis of algorithms for two‐stage flowshops with multi‐processor task flexibility

In this article we introduce a 2‐machine flowshop with processing flexibility. Two processing modes are available for each task: namely, processing by the designated processor, and processing simultaneously by both processors. The objective studied is makespan minimization. This production environment is encountered in repetitive manufacturing shops equipped with processors that have the flexibility to execute orders either individually or in coordination. In the latter case, the product designer exploits processing synergies between two processors so as to execute a particular task much faster than a dedicated processor. This type of flowshop environment is also encountered in labor‐intensive assembly lines where products moving downstream can be processed either in the designated assembly stations or by pulling together the work teams of adjacent stations. This scheduling problem requires determining the mode of operation of each task, and the subsequent scheduling that preserves the flowshop constraints. We show that the problem is ordinary NP‐complete and obtain an optimal solution using a dynamic programming algorithm with considerable computational requirements for medium and large problems. Then, we present a number of dynamic programming relaxations and analyze their worst‐case error performance. Finally, we present a polynomial time heuristic with worst‐case error performance comparable to that of the dynamic programming relaxations. © 2003 Wiley Periodicals, Inc. Naval Research Logistics, 2004.     

Waypoint analysis for command and control

Command and Control (C2) in a military setting can be epitomized in battles‐of‐old when commanders would seek high ground to gain superior spatial‐temporal information; from this vantage point, decisions were made and relayed to units in the field. Although the fundamentals remain, technology has changed the practice of C2; for example, enemy units may be observed remotely, with instruments of varying positional accuracy. A basic problem in C2 is the ability to track an enemy object in the battlespace and to forecast its future position; the (extended) Kalman filter provides a straightforward solution. The problem changes fundamentally if one assumes that the moving object is headed for an (unknown) location, or waypoint. This article is concerned with the new problem of estimation of such a waypoint, for which we use Bayesian statistical prediction. The computational burden is greater than an ad hoc regression‐based estimate, which we also develop, but the Bayesian approach has a big advantage in that it yields both a predictor and a measure of its variability. © 2004 Wiley Periodicals, Inc. Naval Research Logistics, 2004