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基于改进干扰观测器的稳定平台扰动抑制技术
引用本文:丁祝顺,李洁,蒋鸿翔,来新晓. 基于改进干扰观测器的稳定平台扰动抑制技术[J]. 导航与控制, 2019, 18(3): 47-51
作者姓名:丁祝顺  李洁  蒋鸿翔  来新晓
作者单位:北京航天控制仪器研究所,北京100039;国防科技大学,长沙410073;北京航天控制仪器研究所,北京,100039
基金项目:国家重点研发计划(编号:2017YFC0601604)
摘    要:航空遥感稳定平台可被应用于资源勘查、地理测绘等领域,可用于隔离载体飞行过程中相机的视轴抖动。由于装配等原因,稳定平台自身也会存在不平衡力矩、摩擦等干扰,这些干扰将影响稳定平台的视轴稳定精度。介绍了上述扰动对稳定平台的影响,并分析了这些扰动的形成原因。为了抑制这些扰动对稳定平台控制精度的影响,在基于传统干扰观测器的基础上,设计了改进型干扰观测器并将其加入到了稳定控制回路中,以形成扰动补偿控制,并对改进干扰观测器的扰动抑制效果进行了仿真分析。仿真结果表明,应用改进干扰观测器的稳定平台的扰动抑制效果明显优于传统PID控制算法,平台的稳定精度得到了进一步提高。

关 键 词:稳定平台  不平衡扰动  扰动抑制  改进干扰观测器  仿真分析

Disturbances Restraining Technology of Stabilized Platform Based on Improved Disturbance Observer
DING Zhu-shun,LI Jie,JIANG Hong-xiang and LAI Xin-xiao. Disturbances Restraining Technology of Stabilized Platform Based on Improved Disturbance Observer[J]. Navigation and Control, 2019, 18(3): 47-51
Authors:DING Zhu-shun  LI Jie  JIANG Hong-xiang  LAI Xin-xiao
Affiliation:Beijing Institute of Aerospace Control Devices, Beijing 100039;National University of Defense Technology, Changsha 410073,Beijing Institute of Aerospace Control Devices, Beijing 100039,Beijing Institute of Aerospace Control Devices, Beijing 100039 and Beijing Institute of Aerospace Control Devices, Beijing 100039
Abstract:Aerial remote sensing stabilized platform is used in resource exploration, geographic mapping and other fields, and is used to isolate the camera''s visual axis jitter. Due to assembly and other reasons, the stabilized platform may also have imbalanced torque, friction and other disturbances, which affect the stability of the stabilized platform. In this paper, the influence of the above disturbances on stabilized platform is introduced, and the causes of these disturbances are analyzed. In order to restrain the influence of these disturbances on the control accuracy of the stabilized platform, an improved disturbance observer is designed based on the traditional disturbance observer and added to the stability control loop to form disturbance compensation control. The disturbance restraining effect of the improved disturbance observer is simulated and analyzed. The simulation results show that the disturbance restraining effect of the stabilized platform using the improved disturbance observer is better than that of the traditional PID control algorithm, and the stability accuracy of the platform is further improved.
Keywords:stabilized platform   imbalance disturbance   disturbance restraining   improved disturbance observer   simulation analysis
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