中尺度数值天气预报模式MM5分布式并行计算

中尺度数值预报模式是进行中尺度天气预报的有效手段。中尺度模式MM5是国际上应用最广泛的中尺度预报模式之一。数值天气预报的巨大计算量和实效性要求必须通过高性能分布式并行计算来实现。分析了MM5串行算法的特点,研究了其并行算法的实现,讨论了算法的一些改进,给出了MM5模式在分布式并行巨型计算机上的测试结果。     

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。     

高可靠、强实时分布式系统的切换技术研究

本文首先给出某高可靠、强实时分布式系统及系统的两种切换方案的简要描述，然后对切换技术的实现进行讨论；最后，在建立强实时双工系统的可靠性模型基础上，对系统的两种切换方案进行分析与比较。研究结果表明：对于本系统，机组级切换优于结点机级切换，且可以减少程序的复杂度，提高系统的可靠性与实时性。     

信息战建模的分析与探讨

通过对信息战建模的分析与总结,指出了一个完善的信息战建模方法应具备的基本功能;给出了这种建模方法的结构流图,并分析了结构流图的构成.该方法建立的信息战模型,能有效地识别信息战的效果,对信息战的理论发展和具体实施都有较重要的指导作用.     

正弦波型直流无刷电动机位置伺服系统的变结构控制

在分析正弦波型直流无刷电动机数学模型的基础上,采用比例等速变速控制策略(PCV)设计控制器,应用于正弦波型直流无刷电动机位置伺服系统.仿真结果表明:与传统PI控制器比较,PCV控制策略可以明显改善系统的品质,并增强系统的鲁棒性.     

分布式结构的坦克火控仿真系统的研究

采用现代仿真技术,分布式结构战车火控仿真系统在完成火控系统动态特性仿真任务后,可实现新火控系统研制过程的先期技术演示,并可为装备论证研究提供先进的仿真手段。此外还分析了以DIS结构接入到作战仿真系统的可能性和现实性。     

一个动态互连全透明训练系统

介绍一个动态互连全透明模拟训练系统设计过程,运用二级分布式结构实现实时模拟,并给出了某型导弹火力控制模拟系统硬件和多媒体软件结构模式     

粉末粒度对储氢电极电化学性能的影响

以M1（NiCoMnTi）5为例,系统研究了粉末粒度对储氢电极电化学性能的影响。结果表明,在试验粒度范围内,合金粉越细,其放电容量越高,高倍率放电性能和循环稳定性也越好;将两种不同粒度的合金粉混合使用时,粒径相差越大,其放电容量越高。且当粗细粉质量比为7：3时,放电容量最高。     

Analysis of decentralized multi‐product pull systems with lost sales

We study a pull‐type, flexible, multi‐product, and multi‐stage production/inventory system with decentralized two‐card kanban control policies. Each stage involves a processor and two buffers with finite target levels. Production stages, arranged in series, can process several product types one at a time. Transportation of semi‐finished parts from one stage to another is performed in fixed lot sizes. The exact analysis is mathematically intractable even for smaller systems. We present a robust approximation algorithm to model two‐card kanban systems with batch transfers under arbitrary complexity. The algorithm uses phase‐type modeling to find effective processing times and busy period analysis to identify delays among product types in resource contention. Our algorithm reduces the effort required for estimating performance measures by a considerable margin and resolves the state–space explosion problem of analytical approaches. Using this analytical tool, we present new findings for a better understanding of some tactical and operational issues. We show that flow of material in small procurement sizes smoothes flow of information within the system, but also necessitates more frequent shipments between stages, raising the risk of late delivery. Balancing the risk of information delays vis‐à‐vis shipment delays is critical for the success of two‐card kanban systems. Although product variety causes time wasted in setup operations, it also facilitates relatively short production cycles enabling processors to switch from one product type to another more rapidly. The latter point is crucial especially in high‐demand environments. Increasing production line size prevents quick response to customer demand, but it may improve system performance if the vendor lead‐time is long or subject to high variation. Finally, variability in transportation and processing times causes the most damage if it arises at stages closer to the customer. © 2007 Wiley Periodicals, Inc. Naval Research Logistics, 2007     

Managing components for assemble‐to‐order products with lead‐time‐dependent pricing: The full‐shipment model

We study a component inventory planning problem in an assemble‐to‐order environment faced by many contract manufacturers in which both quick delivery and efficient management of component inventory are crucial for the manufacturers to achieve profitability in a highly competitive market. Extending a recent study in a similar problem setting by the same authors, we analyze an optimization model for determining the optimal component stocking decision for a contract manufacturer facing an uncertain future demand, where product price depends on the delivery times. In contrast to our earlier work, this paper considers the situation where the contract manufacturer needs to deliver the full order quantity in one single shipment. This delivery requirement is appropriate for many industries, such as the garment and toy industries, where the economies of scale in transportation is essential. We develop efficient solution procedures for solving this optimization problem. We use our model results to illustrate how the different model parameters affect the optimal solution. We also compare the results under this full‐shipment model with those from our earlier work that allows for multiple partial shipments. © 2007 Wiley Periodicals, Inc. Naval Research Logistics, 2007