确定性仿真结果检验和因子分析方法

提出一种确定性仿真结果(不考虑随机因素影响的仿真结果)检验方法, 能够对仿真结果与试验结果之间的误差进行分析, 确定该误差是由于仿真不正确引起的系统误差, 还是由于试验结果的分散性引起的偶然误差, 进而判断仿真结果正确与否.同时建立一种确定性仿真结果多因子分析方法, 能够对仿真结果的各个影响因素(因子)进行分析, 确定哪些因素已被正确仿真, 哪些因素尚未被正确模拟, 从而指导仿真软件的编制.      

基于开源GIS数据的广域小重叠卫星影像定位模型精化

设计了一种适用于大区域、小重叠卫星影像有理多项式模型(RPC)定位精度优化的技术流程,基于开源数字正射影像(DOM)、数字高程模型(DEM)数据和RPC几何模型约束,通过优化尺度不变特征变换(SIFT)特征提取与匹配算法,实现了无像幅约束的控制点和连接点的快速稳健匹配,应用DEM支持下的RPC模型二维区域网方法实现了多景影像RPC模型精度的联合精化。GF-1卫星WFV影像的实验结果表明:在DEM支持下经过区域网平差后,RPC模型的定位精度可达到像素级水平。     

大跨时空任务背景下的太阳能无人机任务规划技术研究进展

通过任务规划技术合理的优化太阳能无人机的飞行轨迹和动力学参数,能够有效提高太阳能无人机的能量利用率,使其胜任许多大范围跨时间跨空间飞行任务。从能量建模、续航评估和能量管理策略3个方面对大跨时空任务背景下太阳能无人机任务规划技术的研究进展进行了综述。在能量建模方面,介绍了当前主流的太阳辐射模型和能量生产基本框架;在续航评估方面,分析了目前的指标设计和应用方法;在能量管理策略方面,从能量综合应用、风力滑翔机制、轨迹优化方法和面向特定任务的应用4个角度,梳理了当前的研究现状。最后,对该领域未来可能的研究方向进行了展望。     

浅析航天型号计量保证工作

计量保证工作是航天型号任务质量保障的基础,关系着型号任务的成败。主要介绍了航天型号任务中计量保证工作的现状和不足,结合航天型号任务的全流程工作,提出在型号任务各环节的计量保证工作建议。     

某型飞机空中受油管自动开锁故障分析

针对某型飞机空中受油管在收上位置钢珠锁自动开锁故障,对空中受油管液压收放系统、电路控制系统、收上位置钢珠锁工作原理进行分析,比对钢珠锁开锁压力理论计算和收放系统回油压力测试试验结果,找出空中受油管收上位置钢珠锁自动开锁原因,提出改进建议。     

Planetary protection issues related to human missions to Mars

In accordance with the United Nations Outer Space Treaties [United Nations, Agreement Governing the Activities of States on the Moon and Other Celestial Bodies, UN doc A/RES/34/68, resolution 38/68 of December 1979], currently maintained and promulgated by the Committee on Space Research [COSPAR Planetary Protection Panel, Planetary Protection Policy accepted by the COSPAR Council and Bureau, 20 October 2002, amended 24 March 2005, http://www.cosparhq.org/scistr/PPPolicy.htm], missions exploring the Solar system must meet planetary protection requirements. Planetary protection aims to protect celestial bodies from terrestrial contamination and to protect the Earth environment from potential biological contamination carried by returned samples or space systems that have been in contact with an extraterrestrial environment. From an exobiology perspective, Mars is one of the major targets, and several missions are currently in operation, in transit, or scheduled for its exploration. Some of them include payloads dedicated to the detection of life or traces of life. The next step, over the coming years, will be to return samples from Mars to Earth, with a view to increasing our knowledge in preparation for the first manned mission that is likely to take place within the next few decades. Robotic missions to Mars shall meet planetary protection specifications, currently well documented, and planetary protection programs are implemented in a very reliable manner given that experience in the field spans some 40 years. With regards to sample return missions, a set of stringent requirements has been approved by COSPAR [COSPAR Planetary Protection Panel, Planetary Protection Policy accepted by the COSPAR Council and Bureau, 20 October 2002, amended 24 March 2005, http://www.cosparhq.org/scistr/PPPolicy.htm], and technical challenges must now be overcome in order to preserve the Earth’s biosphere from any eventual contamination risk. In addition to the human dimension of the mission, sending astronauts to Mars will entail meeting all these constraints. Astronauts present huge sources of contamination for Mars and are also potential carriers of biohazardous material on their return to Earth. If they were to have the misfortune of being contaminated, they themselves would become a biohazard, and, as a consequence, in addition to the technical constraints, human and ethical considerations must also be taken into account.     

The Grain Impact Analyser and Dust Accumulator (GIADA) Experiment for the Rosetta Mission: Design, Performances and First Results

The Grain Impact Analyser and Dust Accumulator (GIADA) onboard the ROSETTA mission to comet 67P/Churyumov–Gerasimenko is devoted to study the cometary dust environment. Thanks to the rendezvous configuration of the mission, GIADA will be plunged in the dust environment of the coma and will be able to explore dust flux evolution and grain dynamic properties with position and time. This will represent a unique opportunity to perform measurements on key parameters that no ground-based observation or fly-by mission is able to obtain and that no tail or coma model elaborated so far has been able to properly simulate. The coma and nucleus properties shall be, then, clarified with consequent improvement of models describing inner and outer coma evolution, but also of models about nucleus emission during different phases of its evolution. GIADA shall be capable to measure mass/size of single particles larger than about 15 μm together with momentum in the range 6.5 × 10⁻¹⁰ ÷ 4.0 × 10⁻⁴ kg m s⁻¹ for velocities up to about 300 m s⁻¹. For micron/submicron particles the cumulative mass shall be detected with sensitivity 10⁻¹⁰ g. These performances are suitable to provide a statistically relevant set of data about dust physical and dynamic properties in the dust environment expected for the target comet 67P/Churyumov–Gerasimenko. Pre-flight measurements and post-launch checkouts demonstrate that GIADA is behaving as expected according to the design specifications. The International GIADA Consortium (I, E, UK, F, D, USA).     

同应力多危险部位轮盘寿命可靠性试验评估方法

讨论了轮盘寿命试验评估中基于威布尔分布和对数正态分布的寿命分散系数法。提出两种多危险部位轮盘寿命试验评估的改进分散系数估计法,并以某轮盘概率寿命评估为例说明了改进方法的应用。     

任务期间考虑故障件报废无补给下的多级装备可用度评估

针对任务期间普遍存在的故障件报废问题,提出了一种适用于多等级多层级航空装备的可用度近似评估方法。首先通过忽略维修和运输时间将存在报废率的可修件等效为消耗件,然后分别通过后方保障中心对飞行基地备件量的分配以及下层级部件对上层级部件备件量的折算,将多等级多层级备件模型转化为单等级单层级模型,最后利用伽马分布的可加性得到整个保障系统的装备可用度。在实际算例中,通过与仿真结果的对比得出:当维修和运输时间较小或飞行基地备件配置充足时,本文提出的近似评估方法具有较高的精度。     

面向军用飞机任务能力的健康评估方法

军用飞机健康评估在工程实际中存在应用困难的问题。以军用飞机为研究对象,开展包括面向任务 的能力分析、基于故障劣化的功能分析以及参数化的健康评估等研究,得到基于任务分析的“飞机-任务功 能-影响参数暠两级映射作为健康评估的对象;综合利用劣化度、严酷度及极大熵改进区间层次分析法等多种 方法,得到飞机健康状态评估结果。结合具体实例及参数分析结果,表明该评估方法可信度高,具有较高的工 程实用价值。