一种组合体航天器帆板的光照遮挡计算新方法

提出了一种新的太阳帆板遮挡计算方法,用于组合体航天器的能量平衡分析与计算。根据航天器轴线与帆板转轴垂直的几何关系,将其沿轴线离散化为若干平面的集合,将所分析的帆板离散化为点集,判断离散点沿太阳矢量逆向是否经过离散的舱体平面或其它帆板平面,以此确定遮挡关系。通过仿真计算得到不同入射太阳方向下某组合体对应的遮挡区域,结果表明,新方法适用于轴对称形状组合体航天器的帆板遮挡分析。     

一种用于液晶曝光中的激光检测系统

介绍了一种非接触式激光检测系统，可用于检测液晶曝光中液晶模板与基板之间的间隙，给出了该种系统的测量原理、硬件系统、信号处理方法、测量结果、分辨力和误差分析，并指出了这种测量系统的应用。     

超大型光学镜面面形的纳米定位技术

电容式传感器在纳米级测试中得到了广泛的应用，但是对环境条件要求较高，检测中温、湿度的变化、传感器本身结构乃至其电路性能等因素，将直接影响测量的准确度和灵敏度。介绍了大型天体望远镜光学镜面面形的控制方法和工作原理。该大型天体望远镜Φ１０ｍ的主镜由３６块对角线长１．８ｍ的六角形子镜拼接而成，应用电容测微技术使此超大型镜面的共面性达到纳米量级的定位控制。通过检测原理的分析，阐述了电容式传感器在使用中提高其准确度和长期稳定性的理论分析和具体技术措施，并针对国内正在研制的ＬＡＭＯＳＴ超大型天体望远镜实际应用环境和技术指标要求，提出新的差动式传感器，并采用新材料和高集成度的进口新器件，以满足传感器在温、湿度变化大的条件下实时监测的要求。     

基于高性能通用计算机的软件基带技术

随着通用计算机和软件处理技术的发展,测控基带软件化已经成为航天测控设备一种新的实现形式。在回顾和总结软件接收机发展历程的基础上,从处理平台、总线交互接口、操作系统、并行处理技术等方面分析软件基带的技术途径,从实时性、时间同步性、可靠性、成本等方面分析软件基带面临的挑战,并展望软件基带的发展前景。     

三维编织复合材料及其RTM成型工艺

文章阐述了三维编织工艺,并将三维编织复合材料的性能与传统铺层复合材料的性能作了比较。同时,还介绍了其成型方法—RTM工艺的原理及特点,并提供了一种适于RTM工艺的树脂体系。     

电长度测量方法探究

从电长度的概念出发，主要介绍了使用网络分析仪来实现电长度测量的三种方法，分别是频域电延迟法、时域反射法和时域传输法；针对三种不同方法分别做了试验。     

整合辽宁省航空产业资源,推动产业链全面振兴增值

结合辽宁省航空产业基础雄厚的现实条件,针对产业布局分散、产业整合度较低等具体问题,经过充分调查研究和对比论证,总结了全省航空产业资源的优势与不足,综合论述了辽宁省航空产业资源的整合必要性和可行性,结合沈阳国家民用航空高技术产业基地的建设和"五点一线"战略的实施,提出了尽早规划、与国有企业合作、加强自主创新能力建设、加强省部合作等建议.     

WIOBSS: The Chinese low-power digital ionosonde for ionospheric backscattering detection

The ionospheric laboratory of Wuhan University has developed an ionosonde over about seven years. The prototype is designed as a portable, low-power digital MF (medium frequency) and HF (high frequency) radio system with high range and Doppler resolution. The first system is used for ionospheric oblique backscattering detection and called WIOBSS (Wuhan Ionospheric Oblique Backscattering Sounding System). WIOBSS is a portable monostatic ionosonde for both ionospheric research and HF channel management, adopting alternate transmitting and receiving patterns to transmit long coded pulse trains for high pulse compression gain. The almost perfect sequences are applied to modulate the pulse train for sounding without range sidelobes and the echo phase is used to estimate the Doppler velocity and velocity fluctuation. This paper introduces the new techniques adopted by WIOBSS and presents some observations.     

Performance improvement for constellation SAR using signal processing techniques

A new concept of spaceborne synthetic aperture radar (SAR) implementation has recently been proposed - the constellation of small spaceborne SAR systems. In this implementation, several formation-flying small satellites cooperate to perform multiple space missions. We investigate the possibility to produce high-resolution wide-area SAR images and fine ground moving-target indicator (GMTI) performance with constellation of small spaceborne SAR systems. In particular, we focus on the problems introduced by this particular SAR system, such as Doppler ambiguities, high sparseness of the satellite array, and array element errors. A space-time adaptive processing (STAP) approach combined with conventional SAR imaging algorithms is proposed which can solve these problems to some extent. The main idea of the approach is to use a STAP-based method to properly overcome the aliasing effect caused by the lower pulse-repetition frequency (PRF) and thereby retrieve the unambiguous azimuth wide (full) spectrum signals from the received echoes. Following this operation, conventional SAR data processing tools can be applied to focus the SAR images fully. The proposed approach can simultaneously achieve both high-resolution SAR mapping of wide ground scenes and GMTI with high efficiency. To obtain array element errors, an array auto-calibration technique is proposed to estimate them based on the angular and Doppler ambiguity analysis of the clutter echo. The optimizing of satellite formations is also analyzed, and a platform velocity/PRF criterion for array configurations is presented. An approach is given to make it possible that almost any given sparse array configuration can satisfy the criterion by slightly adjusting the PRF. Simulated results are presented to verify the effectiveness of the proposed approaches.