张杰, 张涛, 况涉青. 小型星模拟器系统的设计研究[J]. 应用光学, 2013, 34(6): 920-927.
引用本文: 张杰, 张涛, 况涉青. 小型星模拟器系统的设计研究[J]. 应用光学, 2013, 34(6): 920-927.
ZHANG Jie, ZHANG Tao, KUANG She-qing. Design of small star simulator system[J]. Journal of Applied Optics, 2013, 34(6): 920-927.
Citation: ZHANG Jie, ZHANG Tao, KUANG She-qing. Design of small star simulator system[J]. Journal of Applied Optics, 2013, 34(6): 920-927.

小型星模拟器系统的设计研究

Design of small star simulator system

  • 摘要: 基于超小型P13XM015型TFT-LCD技术的小型星模拟器的工作原理,及其在工程应用中整个系统的设计、制造、加工、调试和检测技术,提出对星间间距采用软件修正以及先分别测量再组合修正的方法,对星等采用使用相适应的仪器星等的方法。采用模块化方法设计了小型星模拟器系统的光学系统准直物镜、模拟星库的编制、坐标转换、位置解算、系统控制软件等。在实验室实现了整个系统的组装,搭建了控制和测试平台,并给出了实验结果。实验结果表明:本系统的星库精度及星位置解算误差12,角分辨率误差23.43。

     

    Abstract: Based on the working principle of the small P13XM015-TFT-LCD star simulator and its designing, manufacturing, processing, debugging and detection technology of the whole system during the engineering application, the detection method for the two parameters of the small star simulator such as intersatellite spacing and magnitude was studied. The inter-satellite spacing was corrected by software then measured respectively and recombined to be corrected, while the adapted instrument magnitude method was used for the magnitude testing. The optical system collimating lens, preparation of simulator star database, coordinate transformation, position calculating, and system control software of the small star simulation system were designed by using modularity method. The assembly of the entire system was implemented in the laboratory, the controlling and testing platform was set up, and then the experimental results were obtained. The results show that, this system has high reliability with star database precision and position calculating error of no more than 2and angular resolution error of no more than 3.43.

     

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