Chinese Journal of Lasers, Volume. 50, Issue 13, 1305001(2023)
Tip-Tilt Mirror Control Method Using Smith Predictor and Filter-Based Linear Active Disturbance Rejection
Figures & Tables(10)
Fig. 5. Comparison of tracking error between FLADRC-Smith control and PI control for different input signal frequencies. (a) 15 Hz; (b) 35 Hz
Fig. 6. Comparison of system frequency domain characteristics using FLADRC-Smith control and PI control. (a) Magnitude-frequency characteristics; (b) phase-frequency characteristics
Fig. 7. Response performance and disturbance rejection ability of system using FLADRC-Smith control and PI control
Fig. 8. Comparison of response performance and disturbance rejection ability between FLADRC-Smith control and PI-Smith control. (a)
Fig. 9. Comparison of system frequency domain characteristics using FLADRC-Smith control and PI-Smith control in second-order oscillatory time-delay system. (a) Magnitude-frequency characteristics; (b) phase-frequency characteristics
Fig. 10. Comparison of TTM response performance and disturbance rejection ability in second-order oscillatory time-delay system between FLADRC-Smith control and PI-Smith control. (a)
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Lingxi Kong, Tao Cheng, Chunxuan Su, Kangjian Yang, Mengmeng Zhao, Shuai Wang, Ping Yang. Tip-Tilt Mirror Control Method Using Smith Predictor and Filter-Based Linear Active Disturbance Rejection[J]. Chinese Journal of Lasers, 2023, 50(13): 1305001
Paper Information
Category: Beam transmission and control
Received: Dec. 12, 2022
Accepted: Feb. 6, 2023
Published Online: Jul. 5, 2023
The Author Email: Tao Cheng (chengtaowusang@163.com), Ping Yang (pingyang2516@163.com)
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