The Servo Control System of KDUST Telescope

机译：KDUST望远镜的伺服控制系统

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The KDUST telescope would be installed in Antarctic Dome A, where is extremely cold, high, dry, but have a very stable, calm atmosphere for astronomical observation. According to project requirement, the position following error should be less than 1''. To achieve project target, a direct drive method is used in the project. Normal PID control algorithm is used in controller. It can meet the target in the room temperature. But the following error increased too significantly in the cryogenic environment. In this paper, the expert PID algorithm is applied to control system. The control parameter can be adjusted by amplitude and variation of following error. Experiment proved that expert PID has an obvious advantage in both start-up and tracking process under different temperature. Moreover expert PID also can improve the stability of whole system.

机译：KDUST望远镜将安装在极冷，高，干燥的南极穹顶A中，但具有非常稳定，平静的氛围，可用于天文观测。根据项目要求，位置跟随误差应小于1英寸。为了实现项目目标，在项目中使用直接驱动方法。控制器使用普通的PID控制算法。它可以在室温下达到目标。但是，在低温环境下，跟随误差会显着增加。本文将专家PID算法应用于控制系统。可以通过跟随误差的幅度和变化来调整控制参数。实验证明，专家PID在不同温度下的启动和跟踪过程中均具有明显的优势。而且专家PID也可以提高整个系统的稳定性。

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《Conference on advances in optical and mechanical technologies for telescopes and instrumentation》|2014年|91513J.1-91513J.6|共6页
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Zhang Jian; Du Fujia;
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KDUST; servo control; high-precision control; expert PID; cryogenic; low-speed;

机译：尘埃;伺服控制高精度控制专家PID低温低速;

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机译：KDust望远镜的伺服控制系统
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机译：伺服问题的可解性和分散控制系统伺服系统的合成
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The Servo Control System of KDUST Telescope

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