固体火箭发动机地面试验性能参数测量不确定度评估

首先阐述了A类不确定度与B类不确定度的评估方法,进而讨论了单通道测量结果与多通道测量结果的评估方法,最后阐述了通过抽样试验获得的样本数据,估计总体的性能参数范围这一参数估计问题。     

变极性等离子弧焊设备及其铝合金焊接工艺研究

介绍了国产变极性等离子弧焊（VPPAW）设备的组成、变极性电源主电路的工作原理。以及微机控制和焊炬等关键技术。用该设备对不同厚度的高强度可热处理强化铝合金试样、贮箱缩比及1：1试验件进行了VPPAW，并分析了接头形式、起弧与收弧、焊接工艺参数确定、常见缺陷、焊接组织及其力学性能。焊接试验结果表明，用VPPAW设备焊接的铝舍金厚度可达14mm，与交流钨极惰性气体保护焊（TIG）相比，其焊缝质量佳，接头性能优。     

一种估计线性调频信号参数的方法

合成孔径雷达实际发射的脉冲信号并非标准的线性调频信号 ,而是带有高次相位误差的调频信号。在高次相位误差较大的情况下 ,将对成像质量产生影响。因此 ,必须对发射信号的线性调频项和高次相位误差进行测试。文中提出利用一维相位解缠和多项式拟合测试发射脉冲信号参数的方法 ,仿真结果表明 ,具有较高的估计精度和较好的实用性     

线性回归模型的最小均方误差估计

在未知线性回归模型测量误差的协方差矩阵和非零均值(由非模型化误差及测量设备系统性误差组成)情况下,提出一种回归参数的“最小均方误差估计“,证明了其优良性。还对稳健估计、测量精度分析中随机与系统性误差分离、白塞尔公式与变量差分法统计随机方差结果不一致等问题,作了深入研究分析。     

挠性空间结构变形的自适应辨识

本文以空间控制中的挠性结构变形的辨识为背景,以李雅普诺夫稳定性理论为基础,从辨识的一致性原则出发,给出时变参数的自适应辨识算法。该算法具有梯度型递推形式,结构简单、容易实现。计算机模拟结果表明该算法是解决时变参数辨识的一种有效方法。     

充分统计量在数字信号处理中的应用研究

分析了充分统计量在数字信号处理中的应用,简述了充分统计量的理论模型,重点研究了充分统计量在高斯信道中的应用,结合具体的实例对传统意义下的基于贝叶斯准则的估计和基于充分统计量的估计的性能进行了比较分析;分析比较了基于充分统计量的估计与传统的基于线性模型估计的一致性,全文以具体简洁的实例,针对充分统计量理论用于信号数字参数的估计问题提供了参考。     

多余度机载系统消息映射与配置的改进设计

针对基于ARINC653操作系统的多余度机载系统消息映射和配置传统设计方法工作量大,维护困难的缺陷,提出一种改进的设计方法,以减少传统设计方法的复杂性,有效提高消息映射和配置设计的效率,增强系统的维护性.     

自抗扰技术在船载天线伺服系统中的应用研究

为减小船摇扰动对船载天线伺服系统指向及跟踪精度的影响，引入线性自抗扰控制器（LADRC）对伺服系统位置环进行改进。首先对天线伺服系统模型进行简要分析，建立系统状态空间方程；然后利用LADRC对系统进行改进，并对其参数设计进行了详细介绍，同时为提高系统动态跟踪性能，利用TD微分器提取目标速度信息进行前馈补偿；最后经实验测试验证，LADRC相对于传统PID控制器能够保持天线伺服系统动态性能不下降，同时有效提高系统的抗船摇性能。     

Real-time fault detection method based on belief rule base for aircraft navigation system

Real-time and accurate fault detection is essential to enhance the aircraft navigation system’s reliability and safety. The existent detection methods based on analytical model draws back at simultaneously detecting gradual and sudden faults. On account of this reason, we propose an online detection solution based on non-analytical model. In this article, the navigation system fault detection model is established based on belief rule base (BRB), where the system measuring residual and its changing rate are used as the inputs of BRB model and the fault detection function as the output. To overcome the drawbacks of current parameter optimization algorithms for BRB and achieve online update, a parameter recursive estimation algorithm is presented for online BRB detection model based on expectation maximization (EM) algorithm. Furthermore, the proposed method is verified by navigation experiment. Experimental results show that the proposed method is able to effectively realize online parameter evaluation in navigation system fault detection model. The output of the detection model can track the fault state very well, and the faults can be diagnosed in real time and accurately. In addition, the detection ability, especially in the probability of false detection, is superior to offline optimization method, and thus the system reliability has great improvement.     

Blank Panel Design of Integral Wing Skin Panels Based on Feature Mapping Methods

A blank panel design algorithm based on feature mapping methods for integral wing skin panels with supercritical airfoil surface is presented.The model of a wing panel is decomposed into features,and features of the panel are decomposed into information of location,direction,dimension and Boolean types.Features are mapped into the plane through optimal surface development algorithm.The plane panel is modeled by rebuilding the mapped features.Blanks of shot-peen forming panels are designed to identify the effectiveness of the methods.