正态-复合非时齐Poisson过程模型结构可靠性当量正态设计

讨论强度R～N（μ_R，_R），应力｛S（t），t∈［0，T］｝为非时齐Poisson过程模型结构可靠性当量正态设计。获得应力在设计基准期［0，T］内的最大值概率分布及统计参数估计；正态－复合非时齐Poisson过程模型结构可靠度及结构可靠性当量正态设计表达式。     

战术导弹控制系统滚动回路的一种设计方法

结合近程战术地地导弹控制系统滚动回路的设计，讨论了整个设计过程中的设计思路和设计方法。针对导弹的弹体滚动运动参数在较大范围内变化的特点，将回路校正网络设计为变参数校正网络。设计中，使用ＩＥＡＳ语言编程对滚动回路单通道和控制回路三通道进行计算机仿真，经多次协调设计，结果令人满意。给出了部分仿真结果。     

P1─—多面体的对偶图形的性质

本文研究了P1─—多面体与其对偶图形的对偶图形边长之间的关系问题．设P1─—多面体的边长为a，其对偶图形的对偶图形的边长为C，则其中θ1为多面体A的过顶点的相邻两校之间的夹角，θ2为多面体B的过顶点的相邻两校之间的夹角，取θ＝max｛θ1，θ1｝     

Balloon altitude studies of southern hemisphere hard X-ray sources by the Imperial College-University of Tasmania-INPE collaboration

Hard X-ray balloon altitude measurements with a 1600 cm² phoswich array are described. Data from observations on Sco X-1, GX1+4, GX5−1, Nova Oph. 1977, SMC X-1, SS433, IC 4329A and MR 2251-178 are presented. The role of Comptonisation in X-ray production for Sco X-1 and GX1+4 is discussed.     

捕风一号卫星总体设计与技术特点

捕风一号卫星是中国首次实现基于星载导航卫星反射信号测量(global navigation satellite system-reflection,GNSS-R)技术的气象卫星,采用新型L波段海面风场信息探测技术,在风场测量、海面飓风风速反演等方面为国家气象、防灾减灾等行业提供服务.从系统设计角度介绍了捕风一号卫星的总...     

基于DBN的不均衡样本驱动民航发动机故障诊断

在结合深度置信网络(DBN)、采样与集成技术的基础上,提出了基于不均衡样本驱动的民航发动机故障诊断模型。该模型通过分析民航发动机历史飞行数据,利用DBN提取性能参数中的内部特征,利用采样技术将不均衡样本均衡化,采用集成技术进行故障分类。将该模型应用到CFM56-7B系列发动机历史飞行数据,实验结果表明:与常用故障诊断方法相比,该模型的准确率高达0.996,AUC值高达0.948,可以有效处理民航发动机样本高维、不均衡问题。      

Orbit determination and prediction of GEO satellite of BeiDou during repositioning maneuver

In order to establish a continuous GEO satellite orbit during repositioning maneuvers, a suitable maneuver force model has been established associated with an optimal orbit determination method and strategy. A continuous increasing acceleration is established by constructing a constant force that is equivalent to the pulse force, with the mass of the satellite decreasing throughout maneuver. This acceleration can be added to other accelerations, such as solar radiation, to obtain the continuous acceleration of the satellite. The orbit determination method and strategy are illuminated, with subsequent assessment of the orbit being determined and predicted accordingly. The orbit of the GEO satellite during repositioning maneuver can be determined and predicted by using C-Band pseudo-range observations of the BeiDou GEO satellite with COSPAR ID 2010-001A in 2011 and 2012. The results indicate that observations before maneuver do affect orbit determination and prediction, and should therefore be selected appropriately. A more precise orbit and prediction can be obtained compared to common short arc methods when observations starting 1 day prior the maneuver and 2 h after the maneuver are adopted in POD (Precise Orbit Determination). The achieved URE (User Range Error) under non-consideration of satellite clock errors is better than 2 m within the first 2 h after maneuver, and less than 3 m for further 2 h of orbit prediction.     

Computational engineering analysis of external geometrical modifications on MQ-1 unmanned combat aerial vehicle

This paper focuses on the effects of external geometrical modifications on the aerodynamic characteristics of the MQ-1 predator Unmanned Combat Aerial Vehicle (UCAV) using computational fluid dynamics. The investigations are performed for 16 flight conditions at an altitude of 7.6 km and at a constant speed of 56.32 m/s. Two models are analysed, namely the baseline model and the model with external geometrical modifications installed on it. Both the models are investigated for various angles of attack from −4° to 16°, angles of bank from 0° to 6° and angles of yaw from 0° to 4°. Due to the unavailability of any experimental (wind tunnel or flight test) data for this UCAV in the literature, a thorough verification of calculations process is presented to demonstrate confidence level in the numerical simulations. The analysis quantifies the loss of lift and increase in drag for the modified version of the MQ-1 predator UCAV along with the identification of stall conditions. Local improvement (in drag) of up to 96% has been obtained by relocating external modifications, whereas global drag force reduction of roughly 0.5% is observed. The effects of external geometrical modifications on the control surfaces indicate the blanking phenomenon and reduction in forces on the control surfaces that can reduce the aerodynamic performance of the UCAV.     

Mapping lunar surface chemistry: New prospects with the Chandrayaan-2 Large Area Soft X-ray Spectrometer (CLASS)

Surface chemistry of airless bodies in the solar system can be derived from remote X-ray spectral measurements from an orbiting spacecraft. X-rays from planetary surfaces are excited primarily by solar X-rays. Several experiments in the past have used this technique of X-ray fluorescence for deriving abundances of the major rock forming elements. The Chandrayaan-2 orbiter carries an X-ray fluorescence experiment named CLASS that is designed based on results from its predecessor C1XS flown on Chandrayaan-1. We discuss the new aspects of lunar science that can be potentially achieved with CLASS.     

高能合成煤油GN-1性能研究 --“液体火箭推进”专刊

结合火箭发动机工程应用环境,研究了GN-1煤油高温高压热物性、安全特性、传热结焦性能以及点火延迟性能,并和现役火箭煤油作了对比分析。采用商业仪器对GN-1煤油在最高200℃、最高压力25MPa范围内的密度、黏度、定压比热容、导热系数、表面张力进行了实验测量。在实验数据的基础上,依据基团贡献法、基于比容平移法则的P-R方程、摩擦理论、广义对应态原理分别对GN-1煤油在最高350℃、最高压力60MPa范围内的密度、黏度、定压比热容、导热系数、表面张力进行了理论计算,建立了GN-1煤油的密度方程、黏度方程、导热系数方程,并将方程的计算值与实验值进行了对比,计算偏差较小。对GN-1煤油和火箭煤油的安全性能进行对比研究,GN-1煤油的闪点为40℃,自燃温度为305℃,高于火箭煤油(225℃);燃点为47℃,低于火箭煤油(82℃),GN-1煤油的爆炸极限范围为0.44%-2.9%（40℃）。GN-1煤油和火箭煤油的急性经口毒性LD50＞5000mg/kg,均属于第五级化合物（实际无毒）。在入口压力10 MPa,流速10 m·s-1,内壁温480℃条件下,GN-1煤油的传热系数比火箭煤油提高14.4%,建立了传热准则方程。GN-1煤油出口油温220℃时试验段平均结焦速率是出口油温150℃时的4.43倍,GN-1煤油不锈钢材质管路中试验段平均结焦为高合管材质管路中的22.3%。在970K-1105K温度范围内,GN-1煤油的点火延迟时间为320μs-471μs,是火箭煤油的55.6%-69.3%。相关研究可对发动机可靠设计及应用提供重要参考。