星载激光通信终端在轨机动对温度影响

对激光通信终端在轨瞬态温度变化开展了仿真，以期研究在轨机动的影响、热分析和热试验时机动模式的简化模拟。通过合理地分析与简化，建立终端的轨道热分析模型，准确模拟在轨机动，根据典型机动模式、外热流和涂层退化等因素设计了计算工况，得出了终端在轨运行过程中的温度场随时间和姿态变化规律。结果表明：不同机动模式下的温度变化存在差异，最大可达23.0℃，采用固定姿态或一维转动的简化热分析或热试验不能准确模拟实际飞行温度，甚至不能部分替代二维转动热分析或热试验；光学天线和反射镜的温度控制是制约终端工作的瓶颈，为终端设计合适的避光机动策略，可大幅度提高温度稳定度和均匀度。研究结果可以为光机电设备在轨机动策略的设计和改进提供参考。     

A robust object-based shadow detection method for cloud-free high resolution satellite images over urban areas and water bodies

Unwanted contrast in high resolution satellite images such as shadow areas directly affects the result of further processing in urban remote sensing images. Detecting and finding the precise position of shadows is critical in different remote sensing processing chains such as change detection, image classification and digital elevation model generation from stereo images. The spectral similarity between shadow areas, water bodies, and some dark asphalt roads makes the development of robust shadow detection algorithms challenging. In addition, most of the existing methods work on pixel-level and neglect the contextual information contained in neighboring pixels. In this paper, a new object-based shadow detection framework is introduced. In the proposed method a pixel-level shadow mask is built by extending established thresholding methods with a new C₄ index which enables to solve the ambiguity of shadow and water bodies. Then the pixel-based results are further processed in an object-based majority analysis to detect the final shadow objects. Four different high resolution satellite images are used to validate this new approach. The result shows the superiority of the proposed method over some state-of-the-art shadow detection method with an average of 96% in F-measure.     

紧缩场测试扫描架平面度控制系统研制

扫描架是紧缩场现场校准系统的关键测试设备。扫描架扫描平面度是影响校准准确度的关键指标。本文针对自研的扫描区域为φ6m的大型极化扫描架，设计了一套扫描架平面度实时补偿系统。该实时补偿系统可以实时检测扫描架扫描平面相对于基准平面的位置偏差，并通过伺服补偿机构完成补偿。测试结果表明该实时补偿系统可以准确、快速完成平面度的补偿，与半实时补偿方式相比具有更高的效率及精度。目前，该系统已成功应用于紧缩场现场校准。     

基于产品结构的航天器AIT过程多维数据管理系统

文章为解决航天器AIT过程中数据集成度低、数据应用不佳等问题,从数据模型构建、数据集成等方向出发,分析了AIT过程数据在产品结构、时间周期、阶段型号3个维度的演变过程,构建了多维数据模型,并开发基于产品结构的多维数据管理系统。该系统以产品结构为核心,对AIT过程数据进行重新组织,定义不同系统间、不同维度数据之间的关联关系,实现了AIT过程全数据的结构化整合,在此基础上生成了AIT过程数据包。     

Real-time clock comparison and monitoring with multi-GNSS precise point positioning: GPS,GLONASS and Galileo

The precise point positioning (PPP) technique is widely used in time and frequency applications. Because of the real-time service (RTS) project of the International GNSS Service, we can use the PPP technique for real-time clock comparison and monitoring. As a participant in the RTS, the Centre National d’Etudes Spatiales (CNES) implements the PPPWIZARD (Precise Point Positioning with Integer and Zero-difference Ambiguity Resolution Demonstrator) project to validate carrier phase ambiguity resolution. Unlike the Integer-PPP (IPPP) of the CNES, fixing ambiguities in the post-processing mode, the PPPWIZARD operates in the real-time mode, which is also called real-time IPPP (RT-IPPP). This paper focuses on applying the RT-IPPP for real-time clock comparison and monitoring. We review the principle of real-time clock comparison and monitoring, and introduce the methodology of the RT-IPPP technique. The observations of GPS, GLONASS and Galileo were processed for the experiments. Five processing modes were provided in the experiment to analyze the benefits of ambiguity resolution and multi-GNSS. In the clock comparison experiment, the average reduction ratios of standard deviations with respect to the G PPP mode range from 9.7% to 35.0%. In the clock monitoring experiment, G PPP mode can detect clock jumps whose magnitudes are larger than 0.9 ns. The RT-IPPP technique with GRE PPP AR (G) mode allows for the detection of any clock jumps larger than 0.6 ns. For frequency monitoring, G PPP mode allows detection of frequency changes larger than 1.1 × 10⁻¹⁴. When the RT-IPPP technique is applied, monitoring with GRE PPP AR (G) mode can detect frequency changes larger than 6.1 × 10⁻¹⁵.     

低温磨料气射流加工PDMS实验研究

通过自研的低温磨料气射流加工装置进行低温磨料气射流加工聚二甲基硅氧烷(polydimethylsiloxane,PDMS)实验研究,分析了加工时间、加工距离、冲蚀角度和磨料粒径对冲蚀率、孔深和孔横截面形貌的影响。结果表明:随着加工时间的增加,冲蚀率先增大后减小,在第1阶段加工过程中,孔深与加工时间大致呈线性关系,增加加工时间还可使孔底部变平整;存在一个最佳加工距离使孔深最大,当加工距离大于最大加工距离时,孔深将随着加工距离的增加而急剧下降,孔的锥度随着加工距离的增大而增大;当冲蚀角度处于30°～60°之间时,冲蚀率最大,随着冲蚀角度的增加,孔的形状逐步由椭圆形变成圆形;存在一个最佳磨料粒径,使冲蚀率和孔深达到最大;当冲蚀角度小于90°时,低温磨料气射流加工PDMS材料去除机理为塑性去除和脆性去除的结合。     

再入飞行器自适应最优姿态控制

针对再入飞行器姿态控制问题，应用自适应动态规划（ADP）理论设计了姿态控制器。将再入飞行器的姿态控制建模为非线性系统的最优控制问题，提出单网络积分型强化学习（SNIRL）算法进行求解，该算法简化了积分型强化学习（IRL）算法在迭代计算中的执行-评价双网络结构，只需要采用评价网络估计值函数就可以求得最优控制律，其收敛性得到了理论证明。基于SNIRL算法设计了自适应最优控制器，并证明了闭环系统的稳定性。通过数值仿真校验了SNIRL算法比IRL算法计算效率更高，收敛速度更快，并校验了自适应最优姿态控制器的有效性 。     

系统参数对电动力绳系动力学的影响

将电动力绳系(EDT)的主星质量、子星质量、绳系质量以及绳系中的电流视为系统参数，研究这些参数对系统的摆动动力学和轨道动力学的影响。哑铃模型下的电动力绳系摆动动力学方程存在不稳定的周期解，通过Floquet理论来衡量周期解的不稳定程度，从而研究各系统参数对摆动动力学的影响。建立了用春分点轨道元素的形式描述的电动力绳系轨道动力学方程，并以降轨时间来衡量电动力绳系的降轨效率，从而研究系统参数对轨道动力学的影响。运用算例对周期解迁移矩阵的特征值、降轨时间随各系统参数的变化关系进行了仿真，分别得出了各系统参数对系统摆动动力学和轨道动力学的影响。综合本文的仿真结果，并考虑实际发射及空间运行中的其它因素，对电动力绳系的设计和降轨策略提出了建议。     

热塑性定型剂对干铺丝-RTM工艺及力学性能影响

为了研究热塑性定型剂的添加对干铺丝-树脂传递模塑（RTM）工艺的影响，采用PA-6作为热塑性定型剂，通过T-剥离确定定型剂的质量分数，结合试验和工艺仿真，研究了定型剂对预制体面内渗透率的影响，并对其充模过程进行工艺仿真和分析，在此基础上研究了定型剂对环氧复合材料制品层间性能及韧性的影响。渗透率试验和仿真结果表明:加入定型剂后，纤维预制体的沿纤维和垂直纤维的面内渗透率分别降低了55.5%和52.0%；工艺仿真结果与试验结果一致，不同渗透长度下的注胶时间偏差均小于10%。力学性能试验结果表明:加入热塑性定型剂可显著提升环氧树脂复合材料的韧性，Ⅰ型和Ⅱ型层间断裂韧性分别提高了89.3%和54.1%，冲击韧性提高了18.7%，复合材料的层间剪切强度降低了23.6%。      

Multiscale eigenelement method for periodical composites: A review

Based on the eigenvector expansion idea, the Multiscale Eigenelement Method (MEM) was proposed by the author and co-workers. MEM satisfies two equivalent conditions, one condition is the equivalence of strain energy, and the other is the deformation similarity. These two equivalent conditions character the structure-preserving property of a multiscale analysis method. The equivalence of strain energy is necessary for achieving accurate macro behaviors such as lower order frequencies, while the deformation similarity is essential for predicting accurate micro behaviors such as stresses. The MEM has become a powerful multiscale method for the analysis of composite structures because of its high accuracy and efficiency. In this paper, the research advances of MEM are reviewed and all types of eigenelement methods are compared, focusing on superiorities and deficiencies from practical viewpoint. It is concluded that the eigenelement methods with smooth shape functions are more suitable for the analysis of macro behaviors such as lower order frequencies, and the eigenelement methods with piecewise shape functions are suitable for the analysis of both macro and micro behaviors.