基于软件无线电的DS/SS载频跟踪方法

扩频序列的精确同步是接收机正确解扩的关键问题。提出一种基于软件无线电技术,对DS/SS载频偏移量实现快速跟踪的数值算法,并讨论了实现步骤及估计性能。该算法具有三个优点:(1)可消除载频初始相位的影响。(2)适于极低信噪比条件下的载波跟踪。(3)算法简便,易于实现。仿真及实验均验证了此算法的可行性。     

并行科学计算应用的动态I/O模式分析

设计高性能并行文件系统的关键前提是对 Ｉ／ Ｏ 访问模式的分析和研究。并行文件系统的界面、组织结构、ｃａｃｈｅ 预取算法等都与具体应用的 Ｉ／ Ｏ 模式紧密相关。目前，大多数对 Ｉ／ Ｏ 模式的分析局限于其静态模式，而动态 Ｉ／ Ｏ 模式对并行文件系统的设计至关重要。本文通过分析并行科学计算应用的动态 Ｉ／ Ｏ 访问模式，总结出科学计算应用在访问数据量、时间间隔、访问顺序性等空间、时间上的一般访问特性，并在此基础上提出设计面向并行科学计算应用的并行文件系统应考虑的因素。     

复合材料圆锥壳稳定性分析的传递函数法

基于线弹性小变形理论， 利用Ｆｏｕｒｉｅｒ级数展开、Ｌａｐｌａｃｅ 变换和摄动方法， 建立了复合材料薄壁圆锥壳的静力响应、频率响应、自由振动与屈曲特征值问题的渐近传递函数解。构造了复杂边界条件、中间带支撑、变锥度及阶梯变厚度圆锥壳的传递函数解。数值计算结果表明该方法具有很高的计算精度。     

轮式突击炮行进间射击炮口振动分析及稳定控制

为了研究不同因素对炮口振动的影响规律,建立了轮式突击炮行进间射击多体动力学模型,并与试验结果对比验证了合理性。路面谱采用谐波叠加法建模,在不同路面条件和火线高情况下进行了仿真计算,获得了两种因素对行进间射击炮口振动的影响规律。构建了垂向稳定器模型,进行了联合仿真,对比了有、无稳定器两种情况下的炮口振动。结果表明:炮口振动幅值随路面粗糙度增大而增大;火线高对炮口振动的影响是非线性的;垂向稳定器能有效控制炮口振动,相较于无稳定器情况,开炮前炮口最大高低角和高低角速度幅值分别降低了94.1%和97.4%,开炮后炮口最大高低角振动幅值降低了16.2%。该研究对轮式突击炮的总体设计起到了一定理论支撑,具有重要工程应用价值。     

基于信息熵的模糊控制系统稳定性分析

鉴于模糊控制系统稳定性分析方法的复杂性和不完善性 ,用信息论的观点思考这一问题。依据李雅普诺夫稳定性分析原理 ,通过引入信息熵的概念 ,对模糊控制系统的稳定性分析方法进行深入研究和探讨。在综合考虑系统动态品质和稳定边界要求的基础上 ,给出了一般模糊控制系统的稳定性定义 ,并通过严格的数学推导证明了使模糊控制系统稳定的一个充分条件     

地炮营通信系统载波监听／碰撞检测仿真分析

给出某地炮营通信系统信息传输的CSMA／CD(Carrier Sense Multiple Acces／Collision Detection)排队论模型,提出了信道争用和碰撞的问题,用单机和网络仿真分析了载波监听条件下通信失效的概率,给出信道争用和碰撞的几个性能指标,并利用软件的方法,提供了减少碰撞的方案     

信息战战场分析模型

根据区域攻防的不同战场信息行动,建立3个非线性微分方程模型.以防御方的总射击速率和战斗力消耗率作为评价指标,着重探讨了进攻方的指挥控制系统、侦察监视系统、战毁评估系统和火力系统之间的性能匹配关系.     

含非线性半群的微分包含

研究了形如X＇（t）∈-Ax（t）＋F（t,x（t））,0≤t≤T,X（0）＝x0的微分包含解的存在的局部性和整体性的结果,并在某种条件下研究了解的稳定性。     

Performance analysis of queue length monitoring of M/G/1 systems

This study investigates the statistical process control application for monitoring queue length data in M/G/1 systems. Specifically, we studied the average run length (ARL) characteristics of two different control charts for detecting changes in system utilization. First, the nL chart monitors the sums of successive queue length samples by subgrouping individual observations with sample size n. Next is the individual chart with a warning zone whose control scheme is specified by two pairs of parameters, (upper control limit, d_u) and (lower control limit, d_l), as proposed by Bhat and Rao (Oper Res 20 (1972) 955–966). We will present approaches to calculate ARL for the two types of control charts using the Markov chain formulation and also investigate the effects of parameters of the control charts to provide useful design guidelines for better performance. Extensive numerical results are included for illustration. © 2011 Wiley Periodicals, Inc. Naval Research Logistics, 2011     

Periodic review inventory management with contingent use of two freight modes with fixed costs

We study a stochastic inventory model of a firm that periodically orders a product from a make‐to‐order manufacturer. Orders can be shipped by a combination of two freight modes that differ in lead‐times and costs, although orders are not allowed to cross. Placing an order as well as each use of each freight mode has a fixed and a quantity proportional cost. The decision of how to allocate units between the two freight modes utilizes information about demand during the completion of manufacturing. We derive the optimal freight mode allocation policy, and show that the optimal policy for placing orders is not an (s,S) policy in general. We provide tight bounds for the optimal policy that can be calculated by solving single period problems. Our analysis enables insights into the structure of the optimal policy specifying the conditions under which it simplifies to an (s,S) policy. We characterize the best (s,S) policy for our model, and through extensive numerical investigation show that its performance is comparable with the optimal policy in most cases. Our numerical study also sheds light on the benefits of the dual freight model over the single freight models. © 2011 Wiley Periodicals, Inc. Naval Research Logistics, 2011