精仪工作台定量调整的原理及方法

论述了可调结构仪器工作台的结构、调整原理和调整方法，并以三点支撑结构、锥面支撑结构仪器工作台表面与测量轴线垂直度的调整为例，具体地阐述了调整方法和步骤。     

Modelling of Ejecta as a Space Debris Source

When a micro-debris or a micrometeoroid impacts a spacecraft surface, a large number of secondary particles, called ejecta, are produced. These particles can contribute to a modification of the debris environment: either locally by the occurrence of secondary impacts on the components of complex and large space structures, or at great distance by the formation of a population of small orbital debris. This paper describes firstly, the ejecta overall production, and secondly, the lifetime and the orbital evolution of the particles. Finally the repartition of ejecta in LEO is computed. Some results describing the population as a function of size and altitude are presented.     

Collision Risk Mitigation in Geostationary Orbit

The short- and long-term effects of spacecraft explosions, as a function of the end-of-life re-orbit altitude above the geostationary orbit (GEO), were analyzed in terms of their additional contribution to the debris flux in the GEO ring. The simulated debris clouds were propagated for 72yrs, taking into account all the relevant orbital perturbations.The results obtained show that 6–7 additional explosions in GEO would be sufficient, in the long term, to double the current collision risk with sizable objects in GEO. Unfortunately, even if spacecraft were to re-orbit between 300 and 500km above GEO, this would not significantly improve the situation. In fact, an altitude increase of at least 2000km would have to be adopted to reduce by one order of magnitude the long-term risk of collision among geostationary satellites and explosion fragments. The optimal debris mitigation strategy should be a compromise between the reliability and effectiveness of spacecraft end-of-life passivation, the re-orbit altitude and the acceptable debris background in the GEO ring. However, for as long as the re-orbit altitudes currently used are less than 500km above GEO, new spacecraft explosions must be avoided in order to preserve the geostationary environment over the long term.     

SPACEBUS3000卫星平台及其测控系统

介绍了法国宇航公司ＡＥＲＯＳＰＡＴＩＡＬＥ研制的通信卫星平台ＳＰＡＣＥＢＵＳ３０００的主要电子系统结构和功能，着重介绍了它的测控系统部分，包括数管子系统和射频子系统的详细结构和功能划分，以及它们的设计方案。     

八作动器隔振平台的通道耦合分析及解耦控制

分析一种对称结构的八作动器隔振平台的通道耦合特性。分析表明由于结构对称，当有效载荷质心位于平台纵轴的延长线上，且有效载荷的惯性主轴与平台对称轴平行时，平台可分解成两个独立的单自由度系统和两个2阶耦合子系统。利用矩阵同时对角化方法对平台的2阶耦合子系统进一步解耦，仿真结果显示解耦控制能够衰减被动隔振的谐振峰，改进平台的隔振性能。     

惯性平台框架类结构件的试验模态分析

为了更好的设计和改善结构的动态特性，从而提高产品及工程的质量，应用结构动态分析和计算方法，针对某型号惯性平台框架类结构件进行了模态试验分析，得出了各结构件在0～2000Hz内的各阶固有频率和振型，并通过将试验模态分析的结果和有限元分析结果进行对比，对有限元建模和分析结果的正确性给予了验证。最后，文中提出了各框架结构件设计中存在的薄弱点和相应的优化措施，为今后结构的设计改进和动力学分析奠定了基础。     

通用仪器CAT可视软件开发平台

通用仪器CAT可视软件开发平台(以下简称"CAT"平台),是在深入研究各个校准实验室日常计量检测工作普遍规律的基础上,设计出的一套辅助实验室软件开发与应用的通用工具,可以完成检测软件开发与应用、证书编辑与生成、实验室信息管理等工作,全面提高校准实验室检定测试的技术与管理水平.     

船载炮射击时的角度修正

分析了船在航行中的几种摇荡对火炮射击精度的影响 ,主要介绍了用于消除船体纵摇角和横摇角影响的数学平台的建立方法 ,以及射击角的修正。     

激光微推进器用于微小卫星的姿轨控仿真

为研究激光微推进器用于微小卫星在轨空间飞行任务的可行性,利用已建立的激光推进微小卫星仿真平台,对微小卫星在轨姿态调整、轨道维持和轨道转移等飞行任务进行了仿真和分析。仿真结果表明,星载激光微推进器可满足在轨微小卫星的高控制精度姿态调整、近地观测轨道维持以及较长时间要求的轨道转移等空间任务对推进系统的要求。     

海洋平台在组合载荷作用下的随机域可靠性分析

本文对海洋平台在风、浪及海流等多种载荷组合作用下的可靠性进行了分析计算，采用优选随机载单元法进行结构数的随机域离散。文中的海洋平台算例结构表明了优选随机域单元法的高效性，以及在海洋工程的结构系统可靠性计算中的考虑载荷组合作用的必要性。