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Coarse-fine Compound Axis Cooperative Control Strategy Optimization for Laser Tracking & Aiming System |
| JIANG Xiaoming, WANG Xufeng, ZHANG Weifang, LIU Yigang |
| Shanghai Electro-Mechanical Engineering Institute, Shanghai 201109, China |
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| Guide |
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Abstract A coarse-fine compound axis cooperative control strategy is presented for the laser tracking and aiming system according to high precision, fast response and anti-jamming requirements. The coarse tracking infrared and CCD detector and direct driving motor are employed for the coarse tracking. When the target is shown in the fine tracking field of view, PZT fast steering mirror and fine tracking CCD are employed for fine tracking. In the coarse tracking process, it is useful to extract the target information from infrared and CCD detector for stable tracking. The coarse-fine tracking cooperative control takes advantage of the fine tracking target deviation, relative movement of the fast steering mirror and the coarse tracking aiming angle to obtain the actual target aiming information. Besides, the cross decoupling controller with low pass filter is designed to reduce the relative distance between the fine tracking system and the coarse tracking system, and the tracking performance of the compound axis control system is improved. Simulation and experimental results show that this method can effectively improve the bandwidth and precision and anti-jamming capability of the system.
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Received: 25 December 2018
Published: 23 August 2019
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2019, Vol. 2 
