Φ2mm丝材电弧喷涂工艺对涂层结合强度的影响

分析了喷砂预处理和电弧喷涂这两个过程的工艺参数对涂层的结合强度的影响。将分数维理论用于喷砂后的试样表面,研究了喷砂角度、分数维和结合强度的相互关系,找到了获得最高结合强度所用的喷砂角度;通过正交试验法,找到了能获得最佳涂层结合强度的Φ2mm丝材电弧喷涂工艺参数。     

中美采办政策的若干差异和对策建议

通过对中美两国武器装备采办政策的对比分析,提出当前我国武器装备研制与管理政策方面的若干建议。     

装甲车辆发动机发展综述

介绍了坦克装甲车辆发动机的发展概况,综合论述了我军新装备发动机的主要技术特点和第四代坦克发动机的技术发展趋势.     

故障类别的模糊聚类分析

本文通过故障状态-特征的模糊聚类分析,按故障间的相似性对故障进行分类,然后按类别实施故障诊断,可在最少监测点的条件下,获得最多的设备运行故障信息。从而简化故障诊断过程,提高诊断速度和精度。     

装甲机械化部队合成技术保障部署初探

本文主要探讨部队编制体制变化后,装甲机械化部队建立战时合成技术保障部署的几个问题.具体论述了装甲机械化部队实施合成技术保障的必要性;阐述了确立合成技术保障部署时应遵循的原则;提出装甲机械化部队在战时应建立与战斗部署基本对应的,以装备为经,以技术为纬,经纬交织的合成化机构编组,形成随伴保障、直接支援保障和全般支援保障三个层次的合成技术保障部署.     

高炮人-机跟踪系统建模及动态特性分析

本文以某高炮人-机系统为对象,以人的最优控制模型为基础,建立该人-机跟踪系统部分的数学模型,利用计算机求解——即模型预测方法,研究操作者(炮手)在跟踪沿不同航路飞行的空中目标时系统的跟踪误差和动态性能;与此同时研制一套模拟原高炮人-机系统的仿真试验装置,以获取的试验数据做为检验上述模型预测结果和进行全系统性能分析的依据。     

1553B数据总线的使用效率

在1553B 总线的应用中,有两个关键问题:数据总线的使用和传输信息的标准化。本文研究了在连接WPS—1系统中的这些问题,主要内容包括:推论出数据总线能力的计算公式和计算数据WPS—1系统的的计算数据总线能力,除了解决与WPS—1系统有关的问题外,也试着对另外一些类似问题建立一个总的分析方法。     

日常交互中朋友关系强度度量方法

针对如何度量日常生活中人们之间的关系强度问题展开研究,提出一个从日常轨迹、语义位置以及语义标签三个层次度量朋友之间关系强度的层级模型FRSHV。采用动态时间规整模型通过计算朋友之间的空间距离来度量其日常轨迹之间的相似度,进而使用轨迹序列熵值对用户每天轨迹的相似度进行加权处理,将其作为朋友之间的关系强度;采用主题模型隐含狄利克雷分布分别计算朋友之间的基于语义位置和语义标签的行为模式的相似性,将其作为朋友之间的关系强度;采用集成学习的思想对三个层次的度量结果进行投票,以投票结果作为最终的朋友之间的关系强度。在公开数据集上对FRSHV模型的有效性进行实验验证,结果表明该模型能够有效地度量朋友之间的关系强度。     

Single‐commodity stochastic network design under demand and topological uncertainties with insufficient data

Stochastic network design is fundamental to transportation and logistic problems in practice, yet faces new modeling and computational challenges resulted from heterogeneous sources of uncertainties and their unknown distributions given limited data. In this article, we design arcs in a network to optimize the cost of single‐commodity flows under random demand and arc disruptions. We minimize the network design cost plus cost associated with network performance under uncertainty evaluated by two schemes. The first scheme restricts demand and arc capacities in budgeted uncertainty sets and minimizes the worst‐case cost of supply generation and network flows for any possible realizations. The second scheme generates a finite set of samples from statistical information (e.g., moments) of data and minimizes the expected cost of supplies and flows, for which we bound the worst‐case cost using budgeted uncertainty sets. We develop cutting‐plane algorithms for solving the mixed‐integer nonlinear programming reformulations of the problem under the two schemes. We compare the computational efficacy of different approaches and analyze the results by testing diverse instances of random and real‐world networks. © 2017 Wiley Periodicals, Inc. Naval Research Logistics 64: 154–173, 2017     

Driving force coordinated control of an 8 ×8 in-wheel motor drive vehicle with tire-road friction coefficient identification

Because of the complexities of tire-road interaction,the wheels of a multi-wheel distributed electric drive vehicle can easily slip under certain working conditions.As wheel slip affects the dynamic per-formance and stability of the vehicle,it is crucial to control it and coordinate the driving force.With this aim,this paper presents a driving force coordination control strategy with road identification for eight-wheeled electric vehicles equipped with an in-wheel motor for each wheel.In the proposed control strategy,the road identification module estimates tire-road forces using an unscented Kalman filter al-gorithm and recognizes the road adhesion coefficient by employing the recursive least-square method.According to road identification,the optimal slip ratio under the current driving condition is obtained,and a controller based on sliding mode control with a conditional integrator uses this value for accel-eration slip regulation.The anti-slip controller obtains the adjusting torque,which is integrated with the driver-command-based feedforward control torque to implement driving force coordination control.The results of hardware-in-loop simulation show that this control strategy can accurately estimate tire-road forces as well as the friction coefficient,and thus,can effectively fulfill the purpose of driving force coordinated control under different driving conditions.