共查询到19条相似文献,搜索用时 406 毫秒
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《天文研究与技术》2020,(4)
针对天线变形耦合影响指向误差评估精度的问题,提出基于几何光学的大型双反射面天线指向误差评估算法。通过建立变形反射面天线的最佳吻合抛物面、偏移副反射面以及馈源在基坐标下的数学模型,计算反射面辐射区间并确定指向误差权重因子,最终建立天线的指向误差评估模型。为验证算法的正确性,应用该模型对一座在建70 m天线的多组虚拟变形工况进行指向误差评估,其结果与现有波束偏移因子算法以及电磁仿真算法的评估结果进行对比,结果表明,该模型评估的指向误差结果与电磁仿真算法以及波束偏移因子算法的评估结果吻合,所提算法正确。该算法为分析天线变形耦合对指向误差评估精度的影响提供了理论依据,在一定程度上提高了天线的指向误差评估精度。 相似文献
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《天文学报》2014,(3)
热变形是影响大型毫米波天线性能的关键因素之一.这种变形会改变天线反射面的轴线和焦距、恶化反射面面形,导致天线效率和指向精度恶化,同时也使天线效率和指向的长时间稳定性降低.由于太阳的周日运动,造成望远镜4个主支撑腿(简称支腿)之间存在温差,且该温差是变化的,从而引起方位轴的倾斜周期性变化.采用数字摄影测量、倾斜仪测量及天文实测等多种仪器和方法,研究了德令哈13.7m望远镜天线的热变形规律,并根据实时测量的主面温度分布,实现了副面自适应调焦补偿,使得天线效率提高近1倍.测量发现常规指向模型修正后的残差与天线主反射面(包括反射面板和背架,简称主面)直径方向温差存在线性相关性,故在指向解析模型中加入了温差修正项,并通过采用隔热材料包裹支腿的办法显著减小了支腿之间的温差,从而改善了望远镜的指向精度. 相似文献
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描述了采用光学望远镜辅助天马13m射电望远镜进行指向测量以及建立指向误差修正模型的方法. 对于小口径望远镜, 指向校准目标源比较少, 用射电法建立指向模型难以覆盖全天区. 利用上海天文台天马13m射 电望远镜进行光学望远镜辅助射电望远镜指向测量研究, 在13m天线背架上安装一套光学指向系统, 获得了优 于3''的重复测量误差. 此外, 通过对影响天线指向因素的分析, 建立了包含8个误差项的指向误差修正模型以及 光轴和电轴偏差模型. 将指向模型代入天线伺服控制系统, 对校准目标射电源进行十字扫描, 得到指向样本残差约 为5''. 该研究可以为实现高精度指向建模提供一种参考方法. 相似文献
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《天文学报》2016,(1)
大型射电望远镜在观测过程中,随着俯仰角度的变化,副面支撑、背架、主反射面等都有不同程度的变形,这将导致天线效率在高低俯仰角上明显下降,天马65 m射电望远镜副面系统的安装可以用来补偿副面支撑和主面的重力变形,在不同的俯仰角度上,副面位姿的调整可以提高天线的效率和指向性能.通过在X波段和Ku波段研究副面位姿变化对天线效率的影响,用射电法建立了随俯仰角度变化的副面位姿随动调整模型和指向补偿模型.此外还测试了副面随动与固定对天线效率的影响,结果表明副面随动模型可以有效改善65 m望远镜在高低俯仰角上的效率,使得在整个俯仰角范围内,X波段的接受效率均达到60%以上. 相似文献
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天籁实验抛物柱面天线阵结构设计与力学分析 总被引:1,自引:0,他引:1
为了满足大面积天区的射电巡天观测,完成对大尺度结构的精确测量和对暗能量的探测,需要设计可安装大量馈源单元的大规模射电干涉阵列天线。抛物柱面的结构形式能较好满足工作需求,对抛物柱面天线阵进行了结构的选型设计。基于有限元方法及有限元分析软件,建立了用于暗能量射电探测的抛物柱面天线阵结构的有限元模型,计算分析了在重力、冰雪和风力等载荷作用时反射面的变形情况。仿真计算分析结果表明:设计的用于暗能量射电探测的天线结构在各种工况下反射面变形量较小,能满足各项设计技术指标要求,从而验证了天线阵结构的合理性、稳定性和可靠性。 相似文献
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MEI Geng-jun XIANG Bin-bin WANG Na WANG Zhao-jun 《Chinese Astronomy and Astrophysics》2021,45(2):236-251
The pointing accuracy of a radio telescope is usually less than one-tenth of its antenna beam width. For large-aperture antennas at the short-centimeter band or millimeter-wave band, the pointing accuracy must be as high as several arc seconds. Therefore, for large-diameter and high-frequency reflector antennas, the pointing problem has become an important focal point to realize the antenna performance. Among many structural subsystem factors that affect the antenna pointing accuracy, there has been only less study on the factor of main reflector deformation. Based on the structural characteristics of the antenna, a reflector space coordinate system is established in this paper. And based on the space coordinates of the main reflector surface points after deformation, a non-linear least squares fitting method with 3 degrees of freedom is proposed to accurately predict the antenna pointing. Finally, the space geometric relationship is used to strictly derive the precise adjustments on the elevation and azimuth in order for correcting the antenna pointing error, and the indirect relationship between the main reflector deformation and the pointing error is constructed. This has certain guiding significance for improving the pointing accuracy of large radio antennas. 相似文献
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稻城圆环阵太阳射电望远镜(Daocheng Solar Radio Telescope, DSRT)作为子午工程二期太阳-行星际探测子系统的重要部分, 工作在150--450MHz频段, 可提供高空间、高时间分辨率的太阳爆发亮温图像. 针对DSRT天线的高精度指向测量以及对指向误差批量标定和校正的需求, 首先根据DSRT独有的三轴座架系统, 通过四元数旋转变换法建立了天线3参数编码器零点误差模型; 然后提出了基于射电源的漂移扫描法获得16个单元天线功率方向图, 并根据2维方向图确定波束中心的方法精确测量了DSRT天线指向误差; 最后用最小二乘法拟合得到模型参数, 并通过天线控制软件重新调整各个轴的零点, 后对调整结果进行验证. 结果表明指向校正方法可靠有效, 校正后16个天线的指向精度为0.5$^\circ$之内, 明显优于校正前3.5$^\circ$的指向误差, 满足误差小于DSRT天线最高工作频率下的1/10波束范围内的要求. 相似文献
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Ying-Xi Zuo Yang Li Ji-Xian Sun Ji Yang Jing-Jing Li Ye Xu Deng-Yun He Qin-Hong Fan Sheng-Hong Fan 《Chinese Astronomy and Astrophysics》2011,35(4):439-446
Based on digital photogrammetric measurements, the antenna panels of the Delingha 13.7m radio telescope are adjusted to make the main dish have an optimal paraboloidal surface at the elevation of 52°, thus the overall antenna efficiency is optimized for different observing elevations. Observations indicate that the aperture efficiency of the telescope has been improved approximately twice in comparison with the antenna panels adjusted on the basis of theodolite measurements. According to the results of the measurements at different elevations, the models of antenna gravity deformation are built, including the displacement and tilt angle of the subreflector, as well as the focal length and surface error of the main reflector, as functions of elevation angle. In the process of modeling the gravity deformation of the main dish, instead of the direct calculation method, the least square fitting on the measured surface errors at different elevation angles is adopted, in order to reduce the effect of measurement errors on the accuracy of the model. 相似文献
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《天文和天体物理学研究(英文版)》2017,(5)
The design of the Qitai 110 m Radio Telescope(QTT) with large aperture and very high working frequency(115 GHz) was investigated in Xinjiang, China. The results lead to a main reflector with high surface precision and high pointing precision. In this paper, the properties of active surface adjustment in a deformed parabolic reflector antenna are analyzed. To assure the performance of large reflector antennas such as gain and boresight, which can be obtained by utilizing an electromechanical coupling model, and satisfy them simultaneously, research on active surface adjustment applied to a new parabolic reflector as target surface has been done. Based on the initial position of actuators and the relationship between adjustment points and target points, a novel mathematical model and a program thatdirectly calculates the movements of actuators have been developed for guiding the active surface adjustment of large reflector antennas. This adjustment method is applied to an 8 m reflector antenna,in which we only consider gravity deformation. The results show that this method is more efficient in adjusting the surface and improving the working performance. 相似文献
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LIU Xuan Aili Yusup Xiang Bin-bin Wang Cong-si XU Qian Wang Jun 《Chinese Astronomy and Astrophysics》2018,42(3):462-474
According to the influence mechanism of the antenna track irregularity on the telescope pointing accuracy, the distribution of the track errors and their influence on the pointing of the Urumqi Nanshan 26 m telescope are reanalyzed after the antenna track was reformed by using the whole-body welding technology, and hereby the pointing error model is correspondingly revised. By using the moving least-squares method, the measured height errors of the antenna track plane are fitted with a closed curve, and the tilt of the antenna azimuth axis caused by the track irregularity can be determined accordingly. Comparing it with the measured deviation of the antenna azimuth axis caused by the deformation of antenna pedestal, it can be found that both deviations are strongly correlated. A new pointing error model is established in view of the gravity deformation of antenna pedestal, which includes the north-south and east-west components, as well as the antenna track irregularity. Finally, by scanning a known calibration radio source at different positions in the sky, the measured pointing errors are fitted with the new pointing error model. The result shows that the sinusoidal component of the model error can be well constrained by the new pointing correction model, indicating that the new model can reflect very well the antenna pointing error, and can amend it to a certain extend. 相似文献
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《天文和天体物理学研究(英文版)》2016,(8)
A subreflector adjustment system for the Tianma 65 m radio telescope, administered by Shanghai Astronomical Observatory, has been installed to compensate for gravitational deformation of the main reflector and the structure supporting the subreflector. The position and attitude of the subreflector are variable in order to improve the efficiency at different elevations. The subreflector model has the goal of improving the antenna's performance. A new fitting formulation which is different from the traditional formulation is proposed to reduce the fitting error in the Y direction. The only difference in the subreflector models of the 65 m radio telescope is the bias of a constant term in the Z direction. We have investigated the effect of movements of the subreflector on the pointing of the antenna. The results of these performance measurements made by moving the antenna in elevation show that the subreflector model can effectively improve the efficiency of the 65 m radio telescope at each elevation. An antenna efficiency of about 60% at the K u band is reached in the whole angular range of elevation. 相似文献
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《天文和天体物理学研究(英文版)》2020,(4)
This paper describes the establishment and verification of an accurate pointing model for a1.2 m aperture slant-axis terahertz antenna. A new analytical pointing model for the slant-axis antenna is presented based on an analogy to that of the alt-azimuth antennas. Furthermore, extra error terms are added to the pointing model based on the structure and mechanical analysis of the slant-axis antenna. To verify the pointing model experimentally, a pointing error measurement method based on photogrammetric techniques is proposed. Using this method, pointing behaviors of the antenna are accurately measured without the aid of astronomical observations, and major sources of the pointing errors are measured individually by photogrammetry and their respective coefficients are compared with those in the analytical pointing model.The results show that an extended pointing model consisting 21 error terms can significantly reduce the residual systematic errors compared with the traditional model, more details are given in the following sections. 相似文献
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针对太赫兹波段天文点源目标较少, 指向测量相对困难的特点, 研究了利用与太赫兹天线共轴的小型光学望远镜来辅助太赫兹望远镜指向测量以及建立指向误差修正模型的方法. 依托紫金山天文台1.2 m斜轴式太赫兹天线开展了光学辅助指向测量的实验研究, 利用一台安装在天线背架上的100mm口径折射式光学望远镜获得了优于2$''$的指向测量精度. 此外, 通过对斜轴天线的结构分析以及大气折射和本地恒星时(Local Sidereal Time, LST)偏差等误差来源的分析, 建立了包含23个误差项的斜轴式光学指向修正模型, 实现了约3$''$的拟合精度. 最后, 借助高精度数字摄影测量对光电轴一致性进行了标定, 并针对其对指向模型精度的影响进行了讨论. 研究成果将为南极5 m太赫兹望远镜(The 5m Dome A Terahertz Explorer, DATE5)及其他太赫兹望远镜提供指向测量和指向修正模型方面的技术参考. 相似文献