具连续分布滞量的二阶中立型阻尼偏微分方程解的振动准则

研究一类具有阻尼项和连续分布滞量的二阶中立型偏微分方程解的振动性,通过利用Riccati变换,引入一类Φ(t,s,l)型的新函数,获得该类方程在Robin,Dirichlet边值条件下振动的充分判据.     

基于混合优化算法的单分量磁性定位方法

为解决现有磁定位方法的定位精度较大程度上依赖于定位参数初始值估计精度的问题,提出了基于混合优化算法的单分量磁定位方法.首先利用舰船垂向磁场的衰减特性构造了相关系数函数,该函数与测量面上磁场的拟合误差函数共同组成了一种新的多目标规划函数,然后将微分进化算法与方向加速法相结合形成了混合优化算法,再利用该算法通过多目标规划函数确定最优的定位参数解.实验证明,对于未安装定位系统的半合作舰船,该定位方法利用磁传感器所测目标的垂向磁场,能较准确地确定舰船相对于磁传感器的位置,定位结果稳定可靠,定位精度较高.     

基于复合左右手传输线90°移相器的设计

复合左右手传输线的提出在无线通讯领域将有很大的应用前景,也为微波传输线和微波元件的设计提供了一种新思路.根据复合左右手传输线的相位特性及频带展宽原理设计了一个90°移相器,该移相器理论上可以实现L波段从f_1到f_2的90°移相.相对带宽为31%,工作频带内的绝对误差在±3°以内.仿真结果表明,基于复合左右手传输线的90°移相器能够实现宽带内的移相,且效果比较明显.实际电路也比较吻合仿真电路,达到理想的要求.     

基于差分进化算法的铁磁物体磁化率优化方法

针对工程中铁磁物体磁化率难以确定的问题,以单元表面积分铁磁物体感应磁场模型为基础,利用磁场测量值建立了多维磁化率数学优化模型,并运用具有全局多维寻优能力的进化差分算法对多维磁化率数学模型进行了求解,进而确定了铁磁物体的感应磁场分布。最后,设计了空心圆筒磁测实验,实验结果表明:该方法能有效获取铁磁物质多维磁化率,还能精确计算铁磁物体的感应磁场分布。     

基于态势预测的无人机防相撞控制方法

针对无人机自主飞行过程中,受空中非协作移动目标威胁较大,且空中移动威胁存在高机动性的特点,提出一种预测移动威胁情况下的无人机防撞控制方法,该方法采用交互多模(IMM)算法预测移动威胁的运动状态,同时利用滚动时域控制(RHC)思想建立无人机运动控制模型,构造有约束目标函数,运用微分进化算法(DE)求解目标函数,获取最优控制量,输入控制模型,完成防撞机动控制。仿真结果表明,该方法可以有效解决空中多架航空器同时入侵的防撞问题。     

一种基于单频GPS接收机的自迭代定位算法

随着通用航空及无人机产业的发展,低成本及小型化的导航解决方案将具有广泛的市场。提出了一种基于单频GPS接收机的自迭代定位算法,用于提高定位精度,增强定位收敛性。对该算法的基本原理进行了分析,并推导出该算法的数学模型,通过静态实验的方法对该算法的收敛性进行验证,并将该算法的位置信息与最小二乘法解出的位置信息进行对比,体现了自迭代定位算法的优势。     

An exact network flow formulation for cell‐based evacuation in urban areas

In the literature two common macroscopic evacuation planning approaches exist: The dynamic network flow approach and the Cell–Transmission–Based approach. Both approaches have advantages and disadvantages. Many efficient solution approaches for the dynamic network flow approach exist so that realistic problem instances can be considered. However, the consideration of (more) realistic aspects (eg, density dependent travel times) results in non‐linear model formulations. The Cell‐Transmission‐Based approach on the other hand considers realistic traffic phenomena like shock waves and traffic congestion, but this approach leads to long computational times for realistic problem instances. In this article, we combine the advantages of both approaches: We consider a Cell‐Transmission‐Based Evacuation Planning Model (CTEPM) and present a network flow formulation that is equivalent to the cell‐based model. Thus, the computational costs of the CTEPM are enormously reduced due to the reformulation and the detailed representation of the traffic flow dynamics is maintained. We investigate the impacts of various evacuation scenario parameters on the evacuation performance and on the computational times in a computational study including 90 realistic instances.     

3G通信技术发展及在非战争军事行动中的应用

文章分析了3G无线视音频系统具有的优势,对3G视音频传输系统组网方式和功能进行了描述,探讨了非战争军事行动中通信保障面临的主要问题。     

漂浮式微型波力发电装置传动系统的速度分析与调节

针对边防驻岛官兵用电难的问题,结合海洋波浪能特点,提出了一种新型漂浮式微型波力发电装置。基于装置结构模型,分析了其结构特征和工作原理;建立了传动系统的运动学模型,分析了其运动特性和速度调节性能;进行算例分析,验证了理论模型的正确性。研究表明：双侧传动轮系输入系统优于单侧传动轮系输入系统;改变飞轮的转动惯量,可以调节速度的波动。分析结果为该装置的后续试验研究提供了理论依据。     

Stochastic framework for partially degradation systems with continuous component degradation‐rate‐interactions

Many conventional models that characterize the reliability of multicomponent systems are developed on the premise that for a given system, the failures of its components are independent. Although this facilitates mathematical tractability, it may constitute a significant departure from what really takes place. In many real‐world applications, system components exhibit various degrees of interdependencies, which present significant challenges in predicting degradation performance and the remaining lifetimes of the individual components as well as the system at large. We focus on modeling the performance of interdependent components of networked systems that exhibit interactive degradation processes. Specifically, we focus on how the performance level of one component affects the degradation rates of other dependent components. This is achieved by using stochastic models to characterize how degradation‐based sensor signals associated with the components evolve over time. We consider “Continuous‐Type” component interactions that occur continuously over time. This type of degradation interaction exists in many applications, in which interdependencies occur on a continuum. We use a system of stochastic differential equations to capture such “Continuous‐Type” interaction. In addition, we utilize a Bayesian approach to update the proposed model using real‐time sensor signals observed in the field and provide more accurate estimation of component residual lifetimes. © 2014 Wiley Periodicals, Inc. Naval Research Logistics 61: 286–303, 2014