基于MBD的检测数据和三维模型关联与可视化技术

针对目前机械零件的检测数据和三维数模相脱离的问题,提出了一种基于MBD的检测数据和三维模型的关联与可视化技术。给出了组合、交叉、聚合三种检测数据和三维模型的关联方式,在CATIA二次开发环境中对检测数据进行特征建模,并且最后将检测数据和三维模型的关联结果进行可视化显示并通过实例验证。     

光标产生器和液晶眼镜光电同步驱动器

论述了时分式立体电视系统中光标产生器和液晶眼镜光电同步驱动器的工作原理和功能，并设计出具体的实用电路     

电磁式跟踪器磁场畸变的姿态校正技术

电磁式跟踪器可以测量物体的位置和姿态,但其测量精度也容易受金属环境干扰。本文根据电磁跟踪器的工作原理,给出了电磁式跟踪器姿态校正的模型,讨论了两种不同的姿态校正实现方法:插值法和拟合法,比较了两种方法的优缺点。最后,对某一金属环境进行了畸变姿态校正的试验,给出了3个不同的姿态实际值和在此金属环境下的畸变和校正结果。试验结果表明本文提出的姿态校正算法能很好地补偿金属环境引起的电磁式跟踪器姿态的畸变。     

各级差异化多级刷式密封级间压降均衡性数值与实验研究

分析多级刷式密封级间压降分配特性理论,提出新型各级差异化多级刷式密封结构,基于流固耦合方法建立新型多级刷式密封三维实体计算模型,设计搭建新型多级刷式密封泄漏流动特性实验装置,数值与实验研究在不同工况条件下,结构参数对新型结构多级刷式密封级间压降均衡性和泄漏特性的影响规律。研究结果表明：传统结构多级刷式密封各级级间压降占比均衡性标准差为8.41,新型结构各级级间压降占比均衡性标准差最大为4.69,最小为2.07。相较传统各级相同结构,增大下游级有效流通面积的新型各级差异化多级刷式密封可有效改善级间压降的不均衡性。提高后挡板保护高度使得新型结构各级级间压降占比均衡性标准差最小,各级级间压降占比较接近,可明显改善新型结构多级刷式密封级间压降均衡性。减少刷丝束厚度和增大刷丝束与转子面间隙使新型结构多级刷式密封的泄漏量增大明显。     

红外地平仪摆动扫描装置自适应控制器的FPGA实现

本文介绍了红外地平仪自适应摆动控制器ＦＰＧＡ原理样机的有关研制结果。针对新型长寿命红外地平仪的摆动扫描控制装置，基于系统特征分析，提出了能跟踪摆动装置的固有频率、同时保证摆幅稳定的一套自适应控制方案，并且研制出ＦＰＧＡ芯片原理样机，最终通过了实验验证并得到满意的实验结果。     

中分辨率微波扫描辐射仪

仪器实施的方案为固定视角圆锥扫描双参数温度外部两点式周期定标全功率型，论述了它的工作原理、视向与扫描方式、频段选择和总体的构形。同时对天馈技术、微波接收机、定位技术、数据采集与处理、驱动与传输、电源、热控制等技术进行了分析。     

基于ICCD的空间微光成像系统成像性能研究

研究基于像增强型CCD（ICCD）的空间高分辨率微光成像系统的成像性能。通过理论推导及数学仿真的方法，对系统在微光条件下的能量传递、极限分辨力、信噪比以及调制传递函数进行分析计算。研究表明，系统在黎明照度条件下具有较好探测能力，通过对ICCD器件制冷可以有效提高系统信噪比，实现满月照度的探测成像。     

FY-2C星多通道扫描辐射计及其在轨运行

介绍了风云二号(FY-2)C静止气象卫星多通道扫描辐射计的性能、组成和工作原理,以及为适应将3通道改为5通道而完成的5通道焦平面、光学系统、结构、电子学、红外探测器、辐射致冷器、光学薄膜和第二扫描结构等主要设计改进.卫星的在轨测试和运行结果表明,C星扫描辐射计在第一代自旋静止气象卫星上实现了包括中波红外的5通道同时对地观测,图像质量总体优于同类GMS5,METEOSAT-5静止气象卫星,与目前应用的GOES9三轴稳定静止气象卫星基本相当.     

Scientific requirements for future spatially resolved white-light and broad-band high-cadence observations of the Sun

Several important issues are open in the field of solar variability and they wait their solution which up to now was attempted using critical ground-based instrumentations. However, accurate photometric data are attainable only from space. New observational material should be collected with high enough spatial and spectral resolution, covering the whole visible range of the electromagnetic spectrum as well infrared and ultraviolet to reconstruct the total solar irradiance: (1) the absolute contributions of different small-scale structural entities of the solar atmosphere from the white light flares and from micro-flares are still poorly known; (2) we do not know the absolute contributions of different structural elements of the solar atmosphere to the long-term and to the cyclic variations of the solar irradiance, including features of the polar regions of the Sun; (3) the variations of the chromospheric magnetic network are still poorly evaluated; (4) only scarce information is available about the spectral variations of different small-scale features in the high photosphere. Variability of the Sun in white light can be studied with higher spectral, spatial and time resolution using space-born telescopes, which are more appropriate for this purpose than ground based observatories because of better seeing conditions, no interference of the terrestrial atmosphere and a more precise calibration procedure. Scientific requirements for such observations and the possible experimental tools proposed for their solution. Suggested solar studies have broader astrophysical importance.     

Examining LiDAR – WorldView-3 data synergy to generate a detailed stand map in a mixed forest in the north-west of Turkey

Although stand delineation approach based on aerial photographs and field survey produces high accuracy maps, it is labour-intensive and time consuming. Furthermore, conventional forest stand maps may have some uncertainties that can hardly be verified due to the experiments and skills of photo-interpreters. Therefore, researchers have been seeking more objective and cost-effective methods for forest mapping. LiDAR (Light Detection and Ranging) data have a high potential to automatically delineate forest stands. Unlike optical sensors, LiDAR height data provides information about both the horizontal and vertical structural characteristics of forest stands. However, it deprives of spectral data that may be successfully used in separating tree species. In this study, we investigate the potential of LiDAR – WorldView-3 data synergy for the automatic generation of a detailed forest stand map which can be used for a tactical forest management plan. Firstly, image segmentation was applied to LiDAR data alone and LiDAR/WorldView-3 data set in order to obtain the most suitable image objects representing forest stands. Visual inspection of the segmentation results showed that image objects based on the LiDAR/WorldView-3 data set were more compatible with the reference forest stand boundaries. After the segmentation process, the LiDAR and LiDAR/WorldView-3 data sets were independently classified using object-based classification method. We tested two levels of classification. The first was a detailed classification with 14 classes considering reference stand types. The second was the rough classification with 9 classes where some stand types were combined. The mean, standard deviation and texture features of LiDAR metrics and spectral information were used in the classification. The accuracy assessment results of LiDAR data showed that the Overall Accuracy (OA) was calculated as 0.31 and 0.43, and the Kappa Index (KIA) was calculated as 0.26 and 0.32 for the detailed and rough classifications, respectively. For the LiDAR/WorldView-3 data set, the OA values were calculated as 0.50 and 0.61, and the KIA were calculated as 0.46 and 0.55 for the detailed and rough classifications, respectively. These results showed that the forest stand map derived from the LiDAR/WorldView-3 data synergy is more compatible with the reference forest stand map. In conclusion, it can be said that the forest stand maps produced in this study may provide strategic forest planning needs, but it is not sufficient for tactical forest management plans.