[1] Chao Qi, Shixun Fan, Xin Xie, et al. Research on control method for improving low speed performance and stable precision of electro-optic servo system. Acta Armamentarii, 39, 1873-1882(2018).
[2] Zeyu Wei, Wenbo Xu, Guolin Zhang, et al. Active disturbance rejection control of aerospace electromechanical servo system. Control Theory & Applications, 38, 73-80(2021).
[3] Han Jiaojiao. Research on active disturbance rejection control strategy of photoelectric stabilization platfm[D]. Xi''an: Xi''an Technological University, 2022. (in Chinese)
[4] Changjie Liu, Chunyang Wang, Zishuo Wang, et al. Research on sliding mode active disturbance rejection control method for airborne optoelectric stabilized platform. Electronics Optics & Control, 30, 84-88(2023).
[5] Wang Fan. Research on stabilization tracking technology of airbne star tracker[D]. Chengdu: University of Chinese Academy of Sciences(Institute of Optics Electronics, Chinese Academy of Sciences), 2020. (in Chinese)
[6] Pu Huang, Xiuli Yang, Jihong Xiu, et al. Reduced-order active disturbance rejection control of fast steering mirror driven by VCA. Optics and Precision Engineering, 28, 1365-1374(2020).
[7] Zhengxi Wang, Bao Zhang, Xiantao Li, et al. Friction compensation strategy of high performance for aerial photoelectrical stabilized platform. Acta Aeronautica et Astronautica Sinica, 38, 277-284(2017).
[8] Yuejie Zhang, Peng Zhang, Chengping Ran, et al. Application of a disturbance separation active disturbance rejection control in photoelectric stabilized platform. Infrared and Laser Engineering, 50, 20210068(2021).
[9] Xiangyang Liu, Jianliang Mao, Jun Yang, et al. Robust predictive visual servoing control for an inertially stabilized platform with uncertain kinematics. ISA Transactions, 347-358(2021).
[10] Xiangyang Zhou, Yuan Jia, Qiang Zhao, et al. Dual-rate-loop control based on disturbance observer of angular acceleration for a three-axis aerial inertially stabilized platform. Isa Transactions, 288-298(2016).
[11] Juan Yang, Xiangyang Liu, Jiankun Sun, et al. Sampled-data robust visual servoing control for moving target tracking of an inertially stabilized platform with a measurement delay. Automatica, 110105(2022).
[12] Chunyang Wang, Shangqi Zhao, Hongwei Shi, et al. Linear active disturbance rejection control of airborne photoelectric stabilized platform. Infrared and Laser Engineering, 48, 1213002(2019).
[13] Hairong Zhu, Qi Li. Design of a two-order active disturbance rejection controller of a stable platform. Journal of Harbin University of Science and Technology, 25, 122-128(2020).
[14] Yuchao Fang, Mengxue Li, Ying Che. Study on ADRC based boresight stabilized technology of photoelectric platform. Infrared and Laser Engineering, 52, 0317005(2023).
[15] Yankun Jiang, Heng Piao, Peng Wang, et al. Research on high precision temperature control system using linear auto disturbance rejection technique. Infrared and Laser Engineering, 52, 20210813(2023).
[16] Liu Yiqi, Sun Mingzhe, Hu Cungang, et al. Smooth switching strategy f flexible multistate switches based on linear active disturbance rejection control[JOL]. Power System Technology, (20230808)[20240110]. https:link.cnki.urlid11.2410.TM.20230808.1112.004