基于定性定量知识集成的液体火箭发动机故障诊断方法

首先从知识表示和处理的角度对 SDG方法进行了简要的分析 ,然后根据液体火箭发动机系统的特点 ,提出了改进的途径 ,通过建立只包含发动机测量变量的 SDG,对故障模式进行初步诊断 ,然后对不能区分的故障模式采取加入适当定量信息的办法来进行进一步诊断 ,并对液体火箭发动机中出现的多故障模式建立了诊断方法。测试结果表明本文所提出的方法是可行的     

A320系列机型绿点速度特性分析

绿点速度是空客系列机型特有的光洁构型、一发失效条件下的最佳操纵速度。为了研究绿点速度的设计依据,利用空客PEP性能软件计算A320系列机型光洁构型、一发失效条件下、不同校正表速所对应的爬升角、等待燃油流量和飘降下滑角,分析了绿点速度状态、最大升阻比状态下的爬升、等待、飘降性能与最佳爬升/等待/飘降性能相互之间的关系。结果表明:绿点速度小于最大升阻比速度,随着飞行高度增加逐渐逼近最大升阻比速度;绿点速度下的爬升/等待/飘降性能对应于最大升阻比性能、最佳爬升/等待/飘降性能的均值。     

室温贮存对树脂粘度和加压点的影响

讨论了５４０５改性双马来酰亚胺树脂基体在室温下，贮存时间对粘度以及对固化过程中加压点的影响，给出了相应的计算方法。     

改进力控方案完成异形孔装配

讨论了改进的力／位混合控制方案、异形孔装配策略规划及其在ＪＲＢ－１机器人上的实现。简述了该方案的优点，在ＪＲＢ－１机器人上实现所解决的问题，提出用适应性增益解决力控环稳定问题。文中还结合异形孔装配给出了装配任务的描述和装配策略的自动生成方法。     

超声爬波无损检测方法的研究

本文介绍了超声无损检测中一种具有较好应用前景的波型──超声爬波。试验研究了爬波检测时缺陷定位、定性评定的方法，并给出了主要结论。     

直接不交化方法在故障树定量分析中的应用

在布尔集合运算方法和不交化方法基础上，提出了单调关联故障树系统定量分析优化方法，通过故障树定量分析优化方法，可以方便地得到系统的可靠度、不可靠度、最小割集、最小路集、关键重要度等指标。     

Ada软件的动态测试技术研究

为改善软件质量，对Ａｄａ软件的动态测试技术进行了研究，并且就以下内容着重进行了讨论；Ａｄａ软件的分析与理解；Ａｄａ软件的动态测试原则与方法；Ａｄａ软件的动态测试工具ＡＳＤＴ。     

神舟2号大气密度探测器的探测结果(Ⅰ)日照和阴影区域热层大气密度变化

选用了神舟2号（SZ-2）大气密度探测器在2001年2—4月间的探测数据,进行日照和阴影区域热层大气密度变化的探讨.结果表明:在高度410km附近,日照和阴影区域大气密度变幅为2—3倍,变幅的大小与地磁活动程度呈负相关关系.日照面大气密度峰区位于星下点地方时1400—1500LT的纬度处,峰值大小与太阳活动程度呈正相关关系.阴影面大气密度谷区位于星下点地方时0400-0500的纬度处,同时在±10°纬度区域中还出现了阴影面峰区.     

MONITORING OF ENERGETIC PARTICLE ENVIRONMENT INSIDE THE CHINA-BRAZIL EARTH RESOURCE SATELLITE

On 14 October 1999, the Chinese-Brazil earth resource satellite (CBERS-1) was launched in China. On board of the satellite there was an instrument designed at Peking University to detect the energetic particle radiation inside the satellite so the radiation fluxes of energetic particles in the cabin can be monitored continuously. Inside a satellite cabin, radiation environment consists of ether penetrated energetic particles or secondary radiation from satellite materials due to the interactions with primary cosmic rays.Purpose of the detectors are twofold, to monitor the particle radiation in the cabin and also to study the space radiation environment The data can be used to study the radiation environment and their effects on the electronics inside the satelhte cabin. On the other hand, the data are useful in study of geo-space energetic particle events such as solar proton events, particle precipitation and variations of the radiation belt since there should be some correlation between the radiation situation inside and outside the satellite.The instrument consists of two semi-conductor detectors for protons and electrons respectively. Each detector has two channels of energy ranges. They are 0.5-2MeV and ≥2MeV for electrons and 5-30MeV and 30-60MeV for protons. Counting rate for all channels are up to 104/(cm2@s)and power consumption is about 2.5 W. There are also the additional functions of CMOS TID (total integrated dose) effect and direct SEU monitoring. The data of CBMC was first sent back on Oct. 17 1999 and it's almost three years from then on. The detector has been working normally and the quality of data is good.The preliminary results of data analysis of CBMC not only reveal the effects of polar particle precipitation and radiation belt on radiation environment inside a satellite, but also show some important features of the geo-space energetic particle radiation.As one of the most important parameters of space weather, the energetic charged particles have great influences on space activities and ground tech nology. CBMC is perhaps the first long-term on-board special equipment to monitor the energetic particle radiation environment inside the satellite and the data it accnmulated are very useful in both satellite designing and space research.