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51.
美国高轨抵近操作卫星MiTEx飞行任务及启示 总被引:1,自引:0,他引:1
简述了美国"微卫星技术试验"(Micro-satellite Technology Experiment,MiTEx)计划进展情况,根据目前可获得的最新的MiTEx卫星轨道数据,对其整个飞行过程进行了深入研究,划分了MiTEx-A卫星与MiTEx-B卫星飞行阶段,描述了各阶段飞行轨迹,给出了飞行任务关键数据,对其飞行任务进行了总结。在飞行任务分析的基础上,结合国外对MiTEx卫星的相关报道,分析了MiTEx卫星可能具备的抵近操作任务执行能力,提出了对高轨非合作目标抵近操作应用的启示,总结分析了执行高轨抵近操作任务所需的关键技术。 相似文献
52.
一种估算ETOPS时间限制系统时间性能的方法 总被引:1,自引:0,他引:1
ETOPS时间限制系统的时间性能要求是飞机系统设计的重要输入,是确保飞机系统设计满足最大ETOPS改航能力的前提.结合工程经验以及ETOPS运行特点,提出了一种估算ETOPS时间限制系统时间性能的方法.通过案例计算表明,航路温度和风对于确定ETOPS时间限制系统时间性能的影响是明显的.提出的计算、分析方法可用于飞机设计阶段对ETOPS时间限制系统时间性能的工程估算. 相似文献
53.
USEOFGENETICALGORITHMSTOSEQUENCETHEMACHININGOPERATIONSOFPARTSWANGXiyang(王细洋)(NanchangInstituteofAeronauticsTechnology,330034,... 相似文献
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一种基于时间差分运动检测的改进方法 总被引:5,自引:0,他引:5
本文提出了一种基于时间差分运动检测的改进方法。首先计算时间上连续的两帧灰度图像的差分图像;然后,将得到的差分图像通过低通滤波和二值化处理;最后,利用图像序列中的多帧灰度图像计算得到一组二值图像,通过对二值图像进行像素的算术运算,提取出运动目标区域。实验结果表明:这种方法是有效的。 相似文献
56.
以往对机场进离港系统运行的研究通常只停留在系统输出流量的分析上。提出一种基于离散事件动态系统理论(DEDS)的机场离港过程排队论模型,结合统计中的非参数检验方法确定模型的参数,实现离港过程的仿真。同时利用这种方法,对离港过程的各阶段进行分析,得出了在简化模型下各阶段的效率。 相似文献
57.
针对将来卫星在轨实时目标检测需求,且在其内存和算力都受限的条件下,提出一种改进的YOLOv3,利用轻量化网络代替YOLOv3的特征提取网络,实现遥感目标的高效检测。在目标检测精度相近的情况下,改进模型参数相比原先降低了1.5倍,计算量降低了3.3倍。同时提出了一种基于交并比的迭代聚类算法,分别在YOLOv3和改进YOLOv3上实现了7.0%和2.3%的平均精度均值(mAP)提升。实验表明:改进模型的检测速度最快能达到101 frame/s,当其mAP比YOLOv3高6%时,检测速度仍是YOLOv3的1.6倍。本文提出的改进YOLOv3是一种高效遥感目标检测方法,为未来星上应用打下基础。 相似文献
58.
《中国航空学报》2019,32(12):2755-2764
Currently, due to the detrimental effects on surface finish and machining system, chatter has been one crucial factor restricting robotic drilling operations, which improve both quality and efficiency of aviation manufacturing. Based on the matrix notch filter and fast wavelet packet decomposition, this paper presents a novel pre-generated matrix-based real-time chatter monitoring method for robotic drilling. Taking vibration characteristics of robotic drilling into account, the matrix notch filter is designed to eliminate the interference of spindle-related components on the measured vibration signal. Then, the fast wavelet packet decomposition is presented to decompose the filtered signal into several equidistant frequency bands, and the energy of each sub-band is obtained. Finally, the energy entropy which characterizes inhomogeneity of energy distribution is utilized as the feature to recognize chatter on-line, and the effectiveness of the presented algorithm is validated by extensive experimental data. The results show that the proposed algorithm can effectively detect chatter before it is fully developed. Moreover, since both filtering and decomposition of signal are implemented by the pre-generated matrices, calculation for an energy entropy of vibration signal with 512 samples takes only about 0.690 ms. Consequently, the proposed method achieves real-time chatter monitoring for robotic drilling, which is essential for subsequent chatter suppression. 相似文献
59.
Christopher Newman Ralph Dinsley William Ralston 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(11):3785-3792
Over recent times there has been a rise in the number of objects placed into Earth orbit. With various countries licensing a number of large constellations, the orbital population is set to increase dramatically. A significant number of technical advances have facilitated this and, in the UK and elsewhere, this has been matched by the updating of legislation and an increased policy focus on the need for increased space surveillance and tracking. The rise of large constellations coupled with an increasing number of experimental techniques such as active debris removal or on-orbit servicing procedures means that establishing fault will be crucial if litigation is to be successful. In doing this, any legal proceedings will look at both norms of behaviour, deviation from which will point towards fault and the types and standard of evidence that will be required.This paper will outline these problems in detail. It will be proposed that what is required to map out the contours of liability are both codification of the norms for satellite operations and clarity on protocols for evidence gathering in cases where fault may be contested in orbital operations. This discussion will identify that a way in which this could be achieved is by the use of “space law games”. These are simulations, similar to military war games, in which fictional scenarios could highlight some of the key legal issues that might need to be dealt with. The paper will outline some of the ways in which the law games might work and pose questions as to what data and other considerations will be needed to make such simulations meaningful. 相似文献
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