基于BP神经网络的复合材料性能预测

针对复合材料性能表征十分复杂、困难的情况,利用人工神经网络的BP算法,建立了复合材料性能预测模型。模型由3层神经元组成,分别为输入层、隐含层和输出层。以碳/陶瓷复合材料性能与成分的关系为研究对象,选取了38组实验数据作为学习样本,模型总误差为0.18,用建立的网络预测未知,并给出预报曲线。和试验值相比较表明,所建立的网络能反映碳/陶瓷复合材料组分与其材料性能之间的关系,为实验设计提供了新的思路,节省了时间和劳力。     

基于支持向量机和人工免疫的新结合算法

为了减少大规模数据的支持向量机的样本训练时间,提出了人工免疫（aiNet）和支持向量机（SVM）相结合的算法（ai—SVM）。aiNet能在进行样本压缩的同时抽取原始数据的相关信息并保持原始数据的样本分布。压缩后的样本组成了抗体网络,并在此抗体网络上构建了支持向量机模型。最后结合实际数据样本对ai—SVM算法进行了验证。结果表明,ai-SVM算法可大大减小训练样本集和训练代价,且不降低精度。     

基于小样本数据增强的航天器表面损伤智能检测方法

在轨运行的航天器表面形成损伤有可能导致严重的后果,需要对航天器进行在轨实时损伤检测。针对航天器损伤检测图像样本难以获取的问题,本文采用智能化检测方法,提出了一种用于航天器表面损伤样本扩充的生成对抗网络,该网络能够学习单张输入图像的特征纹理表示,从而生成大量与输入图像特征相似的细粒度尺度样本,实现了少量图像数据样本的扩充。利用YOLO目标检测算法在扩充的图像样本中进行表面缺陷与损伤的检测识别,获取了较高的检测精度,为未来航天器健康状态监测与评估、通用化服务机器人应用及太空原位建设等提供了技术支撑。     

多用途战斗机/涡扇发动机一体化循环参数优化

 针对多用途战斗机的特点,发展了基于飞/发一体化的涡扇发动机循环参数优化设计模型和相应的计算程序,优化设计模型中包括双变量控制涡扇发动机特性计算模型、进排气系统安装特性计算模型、飞机气动特性分析模型、重量组成分析模型、任务剖面分析模型、约束分析与任务分析模型和优化计算模型等。重点研究了多用途战斗机约束边界的获得方法,利用多岛遗传算法和自适应模拟退火优化算法,分别对现役多用途战斗机、不加力超声速巡航多用途战斗机以及下一代先进多用途战斗机用涡扇发动机循环参数进行了优化计算,对计算结果进行了分析,获得了对多用途战斗机用涡扇发动机循环参数选择有指导意义的结论。     

PROBA-3 mission and the Shadow Position Sensors: Metrology measurement concept and budget

PROBA-3 is a space mission of the European Space Agency that will test, and validate metrology and control systems for autonomous formation flying of two independent satellites. PROBA-3 will operate in a High Elliptic Orbit and when approaching the apogee at 6·10⁴ Km, the two spacecraft will align to realize a giant externally occulted coronagraph named ASPIICS, with the telescope on one satellite and the external occulter on the other one, at inter-satellite distance of 144.3 m. The formation will be maintained over 6 hrs across the apogee transit and during this time different validation operations will be performed to confirm the effectiveness of the formation flying metrology concept, the metrology control systems and algorithms, and the spacecraft manoeuvring. The observation of the Sun’s Corona in the field of view [1.08;3.0]R_Sun will represent the scientific tool to confirm the formation flying alignment. In this paper, we review the mission concept and we describe the Shadow Position Sensors (SPS), one of the metrological systems designed to provide high accuracy (sub-millimetre level) absolute and relative alignment measurement of the formation flying. The metrology algorithm developed to convert the SPS measurements in lateral and longitudinal movement estimation is also described and the measurement budget summarized.     

相控阵雷达长时跟踪波束调度与波形优化策略

针对相控阵雷达多目标跟踪波束调度和波形参数优化控制的问题，本文提出了一种基于马尔可夫决策过程（MDP）的相控阵雷达跟踪波束调度与波形参数优化策略，该方法以无迹卡尔曼滤波（UKF）算法为基础来估计目标的状态。首先将本文的序列决策问题建模为马尔可夫决策过程，定义了资源的效费比和长期回报率，然后与当前实际跟踪误差综合考虑作为MDP的回报函数，进而给出了调度的优化模型，最后将长时决策问题转化为动态规划算法结构进行求解，并且提出了一种并行混合遗传粒子群优化算法来求解各决策时刻的最优策略。仿真结果表明了长时策略的先进性以及寻优算法的优越性，与传统的短时策略相比，跟踪精度可提高11.17%。     

TSTO运载器一级返场轨迹优化设计与在线生成

对水平起降两级入轨（TSTO）运载器一子级返场轨迹优化和轨迹在线生成问题进行了研究。首先，给出了较独特的一子级再入轨迹设计策略：先给定侧向剖面，再分段优化求解三维轨迹。针对返场过程的大幅转向需求，设计了形式简单的倾侧角-航向角偏差剖面，并定义了具有不同任务的航向转弯段和航向微调段；针对一子级宽速域气动变化显著特点，为避免轨迹跳跃，定义了增高减速段和下降滑翔段，并采用分段优化策略求解三维轨迹。其次，针对分离扰动造成的一子级初始状态偏差，扩展了自适应高维伪谱插值（AMPI）算法的参数空间，并将其应用于返场轨迹在线生成问题。仿真结果表明，设计的倾侧角剖面能够在倾侧角不翻转的前提下调整飞行航向对准着陆场，设计的分段优化策略能够保证高度曲线平稳无跳跃，采用的自适应高维伪谱插值算法能够在分离扰动影响下快速准确地实现在线轨迹生成。     

A mission concept for the low-cost large-scale exploration and characterisation of near earth objects

This paper presents the preliminary mission and science analysis of a new mission concept for the large scale, low-cost exploration of Near Earth Objects (NEOs). The concept is to enable close range observations of NEOs by performing close flybys of a series of NEOs at one of their nodal points, with pairs of small spacecraft flying in formation. The paper presents a preliminary assessment of accessible asteroids and multi-target tour trajectories from data available in the JPL small-body database.The main instruments on board each spacecraft are a camera and a LIDAR which together can be used for orbit determination, surface imaging, direct asteroid ranging and asteroid mass estimation via intersatellite ranging. The paper provides a qualitative and quantitative assessment of the measurable quantities during each flyby. In particular, the feasibility of a novel method of NEO mass estimation is assessed.     

GOCE star tracker attitude quaternion calibration and combination

We analyse the inter-boresight angles (IBA) measured by the star trackers on board the GOCE satellite and find that they exhibit small offsets of 7–9″ with respect to the ones calculated from the rotation of the star tracker reference frames to the satellite reference frame. Further, we find small variations in the offsets with a peak-to-peak amplitude of up to 8″, which correlate with variations of the star trackers’ temperatures. Motivated by these findings, we present a method for combining the attitude quaternions measured by two or more star trackers that includes an estimation of relative attitude offsets between star trackers as a linear function of temperature. The method was used to correct and combine the star tracker attitude quaternions within the reprocessing of GOCE data performed in 2018. We demonstrate that the IBA calculated from the corrected star tracker attitude quaternions show no significant offsets with respect to the reference frame information. Finally, we show that neglecting the star tracker attitude offsets in the processing would result in perturbations in the gravity gradients that are visible at frequencies below 2?mHz and have a magnitude of up to 90?mE. The presented method avoids such perturbations to a large extent.     

“忠诚僚机”式有人/ 无人机协同作战概念 与任务管理技术研究

“忠诚僚机”式作战概念定义了有人机与无人机协同作战的新理念，颠覆了传统作战模式。在有人/ 无人机协同作战过程中，有人机以指挥者的角色，对作战任务进行分解、分配与管理。实现有人/ 无人机编队 之间在时间、空间上的协同与配合，而无人机在有人机的指挥下完成侦察与打击等任务。