复杂线天线的一种矩量法算法

采用矩量法来计算复杂线天线.针对复杂线天线的特点,选择合适的积分方程和基函数的形式,收敛很快;另外对端点和结点的影响也做了处理,提高了计算精确度.     

一种逆合成孔径雷达成象运动补偿方法

本文证明了逆合成孔径雷达成象与大阵列微波成象在信号处理方面的等效性,提出利用自适应波束形成技术来实现逆合成孔径雷达成象的运动补偿,给出了计算机模拟一维成象图,并对结果进行了分析。     

新型弹簧钢 33SiMnB 的研制

本文报导了一种新研制的钢种33SiMnB,用这一碳含量远低于传统弹簧钢(如60Si_2Mn)的新弹簧钢33SiMnB制造的载重汽车板簧、铁路轨枕弹条等弹性制件,不但综合力学性能优于传统弹簧钢制成的相同制件,而且在冶金厂的钢材生产过程和机械厂的制簧生产过程中都显出成品率高、能耗率低等诸多优点。     

次连续(S)型映射的广义拓扑度

基于Galerkin逼近技巧,本文构造了次连续(S)型映射的广义度,讨论了该广义度的初等性质,并给出了局部有界广义伪单调映射满值性的拓扑证明。     

快速的复连通区域扫描线图形填充新方法

对复连通区域填充算法进行了细致的研究,提出一种新的扫描线填充算法。该算法先对目标边界进行标注,提供判断条件,然后用扫描线进行填充;该算法不仅适用于单连通区域,而且也适用于复杂区域的填充。该算法效率高,通用性强,实现简单,填充准确。     

毫米波多波束抛物面天线分析和设计

首先应用FDTD对毫米波多波束波导裂缝馈源进行分析计算 ,讨论了馈电波导及辐射缝结构对馈源方向图的影响 ,然后用物理光学法由抛物面上电流计算抛物面天线方向图 ,方向图的计算结果和测试结果相当吻合 ,这证明方法的有效性。     

边界扫描测试仪软件系统开发

边界扫描是一种正在被人们普遍接受的可测试性设计技术 ,在电子设备测试和故障诊断中发挥着越来越重要的作用。本文介绍了开发的边界扫描测试仪样机的工作原理 ,并着重论述了其软件开发的几个重要问题。     

FDTD 中微带线激励源分析

FDTD已广泛应用于微带问题的计算 ,本文在分析各种微带线馈电激励设置方式的基础上提出了一种新的激励设置方式 ,本方法不仅能计算Gaussian脉冲激励 ,也能计算正弦波激励。计算过程中 ,源平面无需切换成吸收边界。由于场区的划分使反射场自然从总场区分离出来。     

行进式雷达天线波束方位的实时确定问题

采用"边行进边工作"方式的目的是提高雷达的战时生存能力。雷达天线波束的指向乃由天线相对其平台的旋转(已知)和平台相对大地运动的转角(未知)共同决定。利用曲率和弧长的概念进行研究,提出在雷达行驶路径为已知几何曲线时,平台转角仅与行驶路程有关。只需获取行驶路程,便可确定天线波束的真实方位。     

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