伊拉克战争的特点和未来战争模式

从联军的空中打击和信息优势2个方面，归纳了伊拉克战争的特点。介绍了战争中使用的智能化武器装备，并探讨了本次战争所展示的未来战争模式——海、陆、空、天、电一体化的网络中心战。最后提出我国应建立积极防御的国防体系。     

挠性结构的分力合成主动振动抑制方法研究

针对当代航天器的大挠性特点和挠性附件的振动常影响航天器的姿态控制精度和指向精度的问题，全面分析了一种挠性结构的主动振动抑制方法－分力合成方法。分力合成方法的具体应用以若干个定理的形式加以总结。为了提高方法在工程实践中应用的可行性，又提出了改善方法对参数变动鲁棒性的定理并得到了严格的数学证明。数值仿真和地面试验进一步验证了该方法的有效性和简便性。     

基于加速度测量的柔性智能桁架结构振动主动控制实验研究

本文在只能获得加速度时，通过改变Leunberger观测器的结构形式，基于模态滤波器技术、最优控制理论和计算机控制系统理论，采用独立模态空间控制策略进行了具有密集模态的空间柔性智能桁架的实时计算机振动主动控制实验研究。实验结果表明这种控制策略是行之有效的。     

八角垫高压密封结构的设计

本文介绍了一种高压密封结构——八角垫卡环密封结构;通过对该密封结构实际受力情况的分析并结合GB150-89设计标准,阐述了该密封结构的设计方法,并经试验论证可行。     

飞行器结构智能化研究及其发展趋势

智能化是飞行器结构发展的重要趋势，文中介绍了飞行器结构的智能化需求及其发展状况。阐述了飞行器的典型结构健康监测方法及其技术特征，讨论了飞行器主动变形结构的实现方法与途径，结合国内外研究情况，指出了飞行器结构智能化的可实现前景。     

基于扩展块的星载软件控制流容错评价方法

空间环境因素引发的星载软件瞬态的控制流错误可能对系统执行效能造成严重影响,为避免容错算法存储开销和执行开销给系统带入过多的计算压力,提出在容错算法开销和所取得的系统的可靠性提升上取得一定折衷,这是星载软件可靠性设计的合理方向。设计了一种适合于弹性添加容错代码的容错方法:扩展块数字签名的控制流检测方法ESCFC(Extend block Signatures for Control Flow Checking)。由空间高能粒子的实验结果和在轨实测结果为系统可靠度建模,提出了算法开销和可靠性效能提升的平衡关系的工程参考和理论依据。定性分析和模拟,充分说明了将该方法运用于航天工程的可行性。     

情报侦察数据融合技术的几个问题

就情报侦察系统中多传感器 (有源 -无源 )数据融合技术的坐标变换、目标状态估计特征、数据关联和跟踪维持、目标身份识别等问题进行了讨论 ,并就各种相关准则和算法给予研究 ,特别提出了模糊聚类关联算法。     

Active detumbling technology for noncooperative space target with energy dissipation

Space debris is generally a kind of tumbling noncooperative space target which poses a serious threat to human space activities. In active debris removal (ADR) missions, capturing a space target directly may cause damage to space manipulator and chaser satellite, so it is a feasible strategy to reduce the angular velocity of space target to an acceptable range in the pre-capture phase. In this paper, an active detumbling technology for a free-floating tumbling space target with energy dissipation is studied, and an effective detumbling method utilizing intermittent contact impact between the space target and despin mechanism is proposed. First, the dynamic model of the space target is set up by the Jourdain’s velocity variation principle. Then, a contact model between the space target and despin mechanism is established based on the Hertz contact theory and the method of computer graphics. Finally, the detumbling method is validated by numerical simulations. Simulation results show that our method can reduce the angular velocity of the space target effectively without causing large nutation.     

A theoretical model for the magnetic helicity of solar active regions

Active regions on the solar surface are known to possess magnetic helicity, which is predominantly negative in the northern hemisphere and positive in the southern hemisphere. Choudhuri et al. [Choudhuri, A.R. On the connection between mean field dynamo theory and flux tubes. Solar Phys. 215, 31–55, 2003] proposed that the magnetic helicity arises due to the wrapping up of the poloidal field of the convection zone around rising flux tubes which form active regions. Choudhuri [Choudhuri, A.R., Chatterjee, P., Nandy, D. Helicity of solar active regions from a dynamo model. ApJ 615, L57–L60, 2004] used this idea to calculate magnetic helicity from their solar dynamo model. Apart from getting broad agreements with observational data, they also predict that the hemispheric helicity rule may be violated at the beginning of a solar cycle. Chatterjee et al. [Chatterjee, P., Choudhuri, A.R., Petrovay, K. Development of twist in an emerging magnetic flux tube by poloidal field accretion. A&A 449, 781–789, 2006] study the penetration of the wrapped poloidal field into the rising flux tube due to turbulent diffusion using a simple 1-d model. They find that the extent of penetration of the wrapped field will depend on how weak the magnetic field inside the rising flux tube becomes before its emergence. They conclude that more detailed observational data will throw light on the physical conditions of flux tubes just before their emergence to the photosphere.