共查询到20条相似文献,搜索用时 171 毫秒
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针对几何尺寸大、结构刚度小、误差终端累积效应显著等制造特征引起的大型筒体-端框对接装配问题,提出一种基于过程参量在线反馈的精确对装新方法,设计筒体和端框的圆跳动、对装缝隙等多参量同步在线测量方案,研制多传感组合测量装置,并将其集成于对装系统,从而优化对装工艺,提高对装效率和精度稳定性。经检测,采用所提出的方法,大尺寸复合材料筒体与铝合金端框对装缝隙误差可有效控制在0.15mm范围内,满足对装精度要求,验证了所研制的多参量在线测量系统对提高对装精度的有效性。 相似文献
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本文分析靶场的统一测控系统与 GPS 定位系统兼容的有关技术问题。作为一种测量手段,在成本不高的情况下把它同靶场的测控设备融为一体,以适应靶场多型号、多任务、多用途战术武器试验测量之需要,是一种最佳的设计方案。GPS 定位系统作为靶场的外测,具有设备简单,不受航区布站条件的限制,可作远程全弹道跟踪测量,精度高,用途广等特点。本文依据 GPS 信号结构和指标要求,同测控设备进行了一体化设计,以满足系统总体指标的要求 相似文献
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高分辨率多径时延测量算法 总被引:1,自引:1,他引:0
提出一种基于最小二乘准则的高分辨率多径信号时延测量方法。对参考信号作三阶样条插值获得每条多径信号最小二乘意义的最优估计,用每条多径信号的测量值重构接收信号,通过反复迭代使重构信号是接收信号最小二乘意义的最优估计,实现多径信号的时延测量。仿真结果表明:新算法在低信噪比、窄带信号条件下仍能获得较高的时延测量精度,性能优于MUSIC类时差测量算法。 相似文献
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介绍了激光威胁信号的计算机处理方法 ,重点探讨多激光威胁源的分选与识别、以及激光威胁信号的参数测量与识别 ,分析了激光威胁源细微特征识别方法。 相似文献
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针对常规时频分析方法对多分量雷达信号分析的不足,提出一种基于神经网络的时频域多分量雷达信号调制参数估计新方法.把多分量雷达信号的时频分布作为灰度图像,通过神经网络训练得到高分辨率时频平面图,然后在时频域实现雷达信号各分量的调制参数估计,相对于时频重排等方法,其对时频分布的处理不需要关于各分量信号的先验知识.仿真实验表明,该方法在得到比时频重排方法更高分辨率时频图的基础上,能够较准确地估计各分量雷达信号调制参数. 相似文献
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Ya. A. Ilyushin 《Cosmic Research》2010,48(2):157-164
The problem of deep sounding of planet interior using ultra wide band radar with synthesized aperture is considered for the
case when anisotropic fluctuations of the ionosphere plasma density take place. Modeling is performed for a number of values
of the medium and radar characteristic parameters. The degree of influence of mutual orientation of the anisotropy direction
of ionospheric fluctuations and of the spacecraft flight trajectory is estimated. It is demonstrated that widening of radar
pulses is determined by characteristic spatial scale of ionosphere plasma disturbances in the transverse direction relative
to the spacecraft flight trajectory. On the other hand, attenuation of the peak power of the pulses is shown to be determined
basically by the longitudinal scale of disturbance correlations. 相似文献
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针对截获的雷达辐射源脉冲数据提出了一种基于特征参数合成的聚类算法。算法利用全脉冲数据的特征参数,通过对每一个特征参数的分选计算出该参数的加权系数。通过加权系数对每一个特征参数的加权得到合成的特征参数,并利用合成参数对脉冲进行聚类。仿真试验表明该算法能够实现对信号的聚类分选,采用编码的方式有利于降低噪声的影响。 相似文献
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Wolfgang Keydel 《Acta Astronautica》1984,11(1):3-14
(Possibilities and Limitations of Microwave Systems for Satellite Remote Sensing)—Microwaves are applied in satellite remote sensing in both active, i.e. radar systems and in passive, i.e. microwave radiometer systems. The advantages and disadvantages of active and passive microwave systems in comparison to each other and to optical systems are discussed shortly. It becomes evident that radar has advantages over microwave radiometry due to its ranging and velocity-measurement capability, due to its SAR-capability with its extremely fine resolution and due to the fact that no major theoretical limitations exist for the obtainable measurement accuracy.The most important radar systems for Earth and ocean observations from satellites are altimeter, scatterometer and imaging radars with real or synthetic aperture. The physical and technical basics of these types of radar are presented together with some applications. Examples for remote sensing data and results obtained from different microwave remote sensing systems show the present state of the art and the present possibilities and limitations of microwave systems for satellite remote sensing. 相似文献
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