| [1] | Pan Song. Robust control of gyro stabilized platform driven by ultrasonic motor[J]. Senseors and Actuators A:Physical, 2017, 261(1):208-287. |
| [2] | Zou Ying, Lei Xusheng. A compound control method based on the adaptive neural network and sliding mode control for inertial stable platform[J]. Neurocomputing, 2015, 155(5):286-294. |
| [3] | Zhong Zhiyong, Li Zhiqiang, Zhou Qingkun, et al. Application in prestiction friction compensation for angular velocity loop of inertially stabilized platforms[J]. Chinese Journal of Aeronautics, 2014, 27(3):655-662. |
| [4] | Gao Xiang, Liu Weiting. Disturbance analysis based on photoelectric stabilized platform[J]. Electronic Design Engineering, 2017, 25(2):76-79, 84. (in Chinese)高翔, 刘维亭. 基于光电稳台的扰动分析[J]. 电子设计工程, 2017, 25(2):76-79, 84. |
| [5] | Zheng Chunyan, Zhang Honggang, Feng Xingwei, et al. ADRC of airborne electro-optical stabilized platform[J]. Electronies Optics Control, 2017, 24(2):51-54. (in Chinese)郑春艳, 张红刚, 冯兴伟, 等. 机载光电稳定平台自抗扰控制研究[J]. 电光与控制, 2017, 24(2):51-54. |
| [6] | Zhang Yanshun, Yang Tao, Li Chunyu, et al. Fuzzy-PID control for the position loop of aerial inertially stabilized platform[J]. Aerospace Science and Technology, 2014, 36:21-26. |
| [7] | Liu Feng, Wang Hua. Fuzzy PID controller for optoelectronic stabilization platform with two-axis and two-frame[J]. Optik-International Journal for Light and Electron Optics, 2017, 140(7):158-164. |
| [8] | Zhang Huifeng, Wei Xinjiang, Zhang Lingyan, et al. Disturbance rejection for nonlinear systems with mismatched disturbances based on disturbance observer[J]. Journal of the Franklin Institute-Eengineering and Applied Mathematics, 2017, 354(11):4404-4424. (in Chinese) |
| [9] | Dong Xiaomeng, Wu Yunjie, Song Xiao, et al. Global sliding mode control based on disturbance observer for motor servo system and application to flight simulator[C]//20146th IEEE Chinese Guidance, Navigation and Control Conference, 2014:7007257. |
| [10] | Liu Chengguang, Rudy R Negenborn, Zheng Huarong, et al. A state-compensation extended state observer for model predictive control[J]. European Journal of Control, 2017, 36(1):1-9. |
| [11] | Chen Fuhong, Ma Dawei, Hu Zhiqi, et al. Rocket launcher system control based on nonsingular terminal sliding mode observer[J]. Journal of Gun Launch Control, 2014, 35(3):21-25. (in Chinese)陈福红, 马大为, 胡智琦, 等. 基于非奇异终端滑模观测器的火箭炮系统控制[J]. 火炮系统发射与控制学报, 2014, 35(3):21-25. |
| [12] | Asl R M, Hagh Y S, Palm R. Robust control by adaptive non-singular terminal sliding mode[J]. Engineering Applications of Intelligence, 2017, 59(3):205-217. |
| [13] | Shotorbani A M, Babaei E. Robust nonlinear controller based on control Lyapunov function and terminal sliding mode for buck converter[J]. International Journal of Numerical Modelling-Electronic Networks Devices and Fields, 2016, 29(6):1055-1069. |
| [14] | Khan Q, Akmeliawati R, Bhatti A L, et al. Robust stabilization of underactuated nonlinear systems:A fast terminal sliding mode approach[J]. ISA Transactions, 2016, 66(1):241-248. |
| [15] | Zhang Yunxi, Sun Mingwei, Chen Zengqiang. Sliding-mode variable structure finite-time convergence guidance law[J]. Control Theory Applications, 2012, 29(11):1413-1418. (in Chinese)张运喜, 孙明玮, 陈增强. 滑模变结构有限时间收敛制导律[J]. 控制理论与应用, 2012, 29(11):1413-1418. |
| [16] | Wang Liang, Liu Xiangdong, Sheng Yongzhi. High-order sliding mode observer based adaptive time-varying sliding mode for re-entry attitude control[J]. Control and Decision,2014, 29(2):281-286. (in Chinese)王亮, 刘向东, 盛永智. 基于高阶滑模观测器的自适应时变滑模再入姿态控制[J]. 控制与决策,2014, 29(2):281-286. |