螺栓预紧方式工艺研究

采用液压拉伸螺栓预紧的方法,通过模拟某产品平台螺栓安装预紧的工艺试验研究,优选并确定了工艺的实际操作方法、步骤,以及所需要的工艺参数,为各种大型结构件的螺栓安装提供了技术支持。     

英语教育中的文化交际能力培养

认知交际法，渗透英语教学的文化背景意识及注重“人文关怀”，是英语教学和科学思路，也是一个更加开放的教学系统，英语的交际能力和语言知识与语言能力是一体化的，让学生了解英语文化背景知识，用英语进行交际和思考，最后达到大面积提高中学英语教学的质量，体现新的教育教学理念。     

Excel在真空计量中的应用

在真空计量领域中，Ｅｘｃｅｌ电子表格软件得到了广泛的应用。本文举例说明了Ｅｘｃｅｌ的数据计算，统计分析，回归分析，宏、ＯＬＥ和ＤＤＥ功能。     

提高长线传输数字波形质量的技术措施

从两方面论述数字编码波形在长线上传输的影响因素及其改善措施。通过分析并经实验表明，长线的分布电容影响通常居诸因素之首位。改进长线驱动电路，在一定程度上，可改善其传输波形之质量。另外，可利用长线传输波形的同时，还传输供总线接口电路需要的电源能量，满足总线浮空隔离的要求，有效地抑制了共模干扰。此项技术适用于远距多路串行总线的数据采集系统。     

空间赛博战研究

赛博作为信息网络时代的产物,正在受到关注和重视。在阐述赛博空间和赛博战新概念的基础上,分析赛博空间和赛博战的特点。介绍了空间赛博战的概念和内涵,重点分析空间赛博战在暴露性、开放性、脆弱性和制约性等方面的特点,并对空间赛博战任务功能进行了分类描述,最后梳理空间赛博战的关键技术。     

应用ZigBee技术的航天器内部三维空间定位方案

针对航天器内部缺少三维空间定位方案的问题,提出一种应用紫蜂(ZigBee)技术的无线传感器网络定位方案,即通过在航天器内部布置ZigBee无线传感器网络,设置若干数量的参考节点和未知节点,利用参考节点的先验位置信息,以及针对未知节点的测距信息,完成对未知节点的三维空间定位。建立基于参考节点平面的三维空间坐标系,根据到达角度(AOA)计算出未知节点的法向坐标(Z坐标),将未知节点投影至参考节点所在平面(XOY平面),利用三边定位法计算出未知节点在XOY平面的坐标。该方案理论上最少只需要6个参考节点,就可以实现对航天器内部未知节点的定位,并且不需要时间同步,适合于无线传感器网络的低复杂度设计需求;利用到达时间差(TDOA)算法进行AOA计算,通过对参考节点进行分层布局,避免使用复杂的天线阵列技术。仿真验证结果表明:本文方案具有较高的定位精度,同时具有较低的硬件和组网要求,以及较低的计算和通信开销,适合于航天器内部的三维空间定位。     

CAD技术及其在卫星工程中的应用

CAD 技术作为一种高效率、高质量、高精度的设计技术,正在包括航天技术在内的多个领域中广泛应用,发挥其效益。尤其是在机械(MCAD)与电子(ECAD)两方面的应用,更是令人瞩目。本文就CAD 技术的范畸、功能、组成、主要技术等并结合卫星研制的具体应用前景,作一介绍,目的在于推动CAD技术的开展,并为CAD/CAM 一体化做好思想准备。     

ISAR欺骗干扰效果评估方法研究

逆合成孔径雷达（ISAR）能够获取运动目标的一维像和二维像,利用宽带特征识别出真实空间目标.宽带成像欺骗干扰是对抗ISAR雷达目标识别的有效措施.构建了基于目标结构特征的ISAR欺骗干扰效果评估体系,提出了相应的干扰效果评估准则,研究了ISAR欺骗干扰效果评估方法.利用仿真评估软件进行仿真分析,验证了评估方法的合理性.     

Singular formalism and admissible control of spacecraft with rotating flexible solar array

This paper is concerned with the attitude control of a three-axis-stabilized spacecraft which consists of a central rigid body and a flexible sun-tracking solar array driven by a solar array drive assembly. Based on the linearization of the dynamics of the spacecraft and the modal identi- ties about the flexible and rigid coupling matrices, the spacecraft attitude dynamics is reduced to a formally singular system with periodically varying parameters, which is quite different from a space- craft with fixed appendages. In the framework of the singular control theory, the regularity and impulse-freeness of the singular system is analyzed and then admissible attitude controllers are designed by Lyapunov＇s method. To improve the robustness against system uncertainties, an H∞ optimal control is designed by optimizing the H∞ norm of the system transfer function matrix. Comparative numerical experiments are performed to verify the theoretical results.     

Optimization of beamforming and path planning for UAV-assisted wireless relay networks

Recently, unmanned aerial vehicles （UAVs） acting as relay platforms have attracted considerable attention due to the advantages of extending coverage and improving connectivity for long-range communications. Specifically, in the scenario where the access point （AP） is mobile, a UAV needs to find an efficient path to guarantee the connectivity of the relay link. Motivated by this fact, this paper proposes an optimal design for beamforming （BF） and UAV path planning. First of all, we study a dual-hop amplify-and-forward （AF） wireless relay network, in which a UAV is used as relay between a mobile AP and a fixed base station （BS）. In the network, both of the AP and the BS are equipped with multiple antennas, whereas the UAV has a single antenna. Then, we obtain the output signal~to-noise ratio （SNR） of the dual-hop relay network. Based on the criterion of maximizing the output SNR, we develop an optimal design to obtain the solution of the optimal BF weight vector and the UAV heading angle. Next, we derive the closed-form outage probability （OP） expression to investigate the performance of the dual-hop relay network conveniently. Finally, computer simulations show that the proposed approach can obtain nearly optimal flying path and OP performance, indicating the effectiveness of the proposed algorithm. Furthermore, we find that increasing the antenna number at the BS or the maximal heading angle can significantly improve the performance of the considered relay network.