基于ICA的油库阀门内漏声发射定量检测

基于声发射原理的阀门内漏检测作为一种动态无损检测方法得到了广泛应用,但是定量检测一直是研究难点。现有的内漏率定量检测模型计算方法因参数不易测定,导致计算困难,精度不高。采用独立分量分析(ICA)方法提取声发射信号特征向量,并与参考样本集的特征向量相比较,相似程度最高的即可作为待测阀门的内漏率。内漏模拟实验分别将常规参数、频谱成分和ICA提取特征作为特征向量进行比较,结果表明ICA提取的特征向量维数为15时,均方根误差可以达到0.01 L/min,能够满足工程检测需要。     

一种楔块式单向超越离合器结构参数优化设计

为优化楔块式单向超越离合器的结构参数,根据漂浮式微型波力发电装置对超越离合器的要求,建立楔块式超越离合器结构参数的数学模型。以体积最小为优化目标,建立接触疲劳强度和各个尺寸的约束条件,并利用Matlab软件的优化工具箱求解数学模型。最后将常规设计参数和优化设计参数进行比较,结果表明:优化设计的体积只有常规设计的72.33%;漂浮式发电装置的传动系统结构更加紧凑,质量更轻。     

Advancing “Defence-in-depth”: intelligence and systems dynamics

This article aims to encourage the fostering of more systems thinking, and its greater exploitation, within the domain of contemporary intelligence. With particular focus on “micro systems thinking” and with reference to key intelligence processes, such as intelligence analysis, the utility of many systems dynamics within the intelligence context seeks to be further revealed. Through their greater collective harnessing, including up to “System of Systems” (“SoS”) dynamics, and promoting all that they can offer, more sophisticated overarching operational-to-strategic/policy “ends,” notably that of “defence-in-depth,” can be viably further advanced in a sustainable manner into the future. Arguably, a much-needed transformative impact on contemporary intelligence can also be increasingly realised through comprehensively engaging in and with more systems and SoS thinking. Aiding civil protection tasks, crisis management, emergency planners, and civil contingency practitioners likewise gain.     

后勤物资消耗测算系统设计需求分析

针对当前后勤物资消耗测算方法过于简单粗略的问题,以构建有效的后勤物资消耗测算系统为目的,对系统的设计进行了需求分析。介绍了后勤物资消耗测算的基本流程以及关键理论,研究了后勤物资消耗测算系统的用户特点以及应用流程,着重对系统的功能需求进行了分析,确定了系统各主要功能的相关内容,并按照功能需求确定了系统的组成结构和接口关系,为系统的设计和实现奠定了基础。     

基于SCAS的防空反导装备体系作战能力指标设计

指标设计是进行武器装备体系发展论证和作战效能与作战能力评估分析的基础。着眼体系作战效能与作战能力评估分析需求,基于传感器（ Sensor）、控制器（ Controller）、执行器（ Actuator）、支持器（ Supporter）的柔性建模方法,对防空反导装备体系作战能力指标进行了设计,构建了其侦察预警能力、指挥控制能力、拦截打击能力、综合保障能力评估指标体系,并利用结构方程模型（ SEM）对指标之间的影响作用关系进行了分析,可为防空反导装备体系建设与运用提供重要借鉴。     

Layers of Experiments with Adaptive Combined Design

In the field of nanofabrication, engineers often face unique challenges in resource‐limited experimental budgets, the sensitive nature of process behavior with respect to controllable variables, and highly demanding tolerance requirements. To effectively overcome these challenges, this article proposes a methodology for a sequential design of experiments through batches of experimental runs, aptly named Layers of Experiments with Adaptive Combined Design (LoE/ACD). In higher layers, where process behavior is less understood, experimental regions cover more design space and data points are more spread out. In lower layers, experimental regions are more focused to improve understanding of process sensitivities in a local, data‐rich environment. The experimental design is a combination of a space‐filling and an optimal design with a tuning parameter that is dependent on the amount of information accumulated over the various layers. The proposed LoE/ACD method is applied to optimize a carbon dioxide (epet‐CO2) assisted deposition process for fabricating silver nanoparticles with pressure and temperature variables. © 2015 Wiley Periodicals, Inc. Naval Research Logistics 62: 127–142, 2015     

A sequential scheduling problem with impatient jobs

There are n customers that need to be served. Customer i will only wait in queue for an exponentially distributed time with rate λ_i before departing the system. The service time of customer i has distribution F_i, and on completion of service of customer i a positive reward r_i is earned. There is a single server and the problem is to choose, after each service completion, which currently in queue customer to serve next so as to maximize the expected total return. © 2015 Wiley Periodicals, Inc. Naval Research Logistics 62: 659–663, 2015     

序降应力加速寿命试验(上)——试验分析篇

加速寿命试验是高可靠长寿命型产品的量化评估的重要途径,广泛应用于武器装备的定寿延寿课题中。为了进一步提高加速寿命试验的效率,提出一种新的试验方法——序降应力加速寿命试验。通过理论模型建立、试验数据分析和蒙特卡罗仿真对该方法的有效性进行分析。研究结果表明,在相同的试验环境下序降应力加速寿命试验方法不但能大幅度提高试验效率,同时还能提高试验分析精度。因此,在武器装备的定寿延寿课题中,序降应力加速寿命试验值得推广。     

某自动补弹系统翻转机构的优化设计

根据自动补弹系统中翻转机构的功能和设计要求,设计了一种新型的翻转机构,使用ADAMS软件对其进行优化设计,得到相应的曲线和较为理想的结果参数。结果表明通过对翻转机构的优化设计,为自动补弹系统翻转机构的改进设计起到指导作用,该方法对自动补弹系统中其他机构的优化分析也具有一定参考价值。     

运用粒子群优化算法的平流层飞艇总体设计

平流层飞艇总重最小化能一定程度上反映总费用最低的设计目标,满足有效载荷功率需求是飞艇总体设计的出发点和落脚点。在飞艇参数建模中引入太阳电池曲面铺装模型以及昼夜能源闭环模型;以整艇重量最小为设计目标,以昼夜能源供需平衡、浮重平衡、推阻平衡三大平衡问题为约束条件,运用粒子群优化算法对飞艇的外形尺寸参数进行优化设计;分析了有效载荷功率需求和功率密度对于飞艇总体设计结果的敏感性。分析结果表明:飞艇总重随有效载荷功率线性增加;飞艇总重随有效载荷功率密度增加而迅速减小,但变化率逐渐变小,飞艇总重趋于稳定。能源系统仿真的结果表明了飞艇总体设计方法的有效性和设计结果的临界特性。