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On disturbance rejection control for inertial stabilization of long-distance laser positioning with movable platform

Jiuqiang Deng, Wenchao Xue, Xi Zhou, Yao Mao

2020Measurement and Control14 citationsDOIOpen Access PDF

Abstract

This paper focuses on the disturbance rejection control problem for inertial stabilization of long-distance laser positioning with the movable platform. Due to various disturbances of the movable platform, the positioning system has significant disturbances that affect the positioning accuracy. Moreover, the nonminimum-phase property of the inertial stabilization system leads to great challenges for designing traditional disturbance-observer-based as well as rejection control methods. In this paper, a dual-compensator disturbance-observer-based control algorithm is proposed to ensure a much stronger rejection of disturbances than those of conventional methods. In particular, it is proven that the two compensators in the proposed method effectively estimate disturbances in different frequency regions. Furthermore, the analytical tuning laws for the proposed dual-compensator disturbance-observer-based control method are presented. The experimental setup including the laser positioning platform demonstrated the validity of the proposed method, which effectively rejected various disturbances.

Topics & Concepts

Control theory (sociology)Disturbance (geology)Inertial frame of referenceObserver (physics)Dual (grammatical number)Inertial measurement unitComputer scienceProperty (philosophy)Control engineeringControl systemEngineeringControl (management)Artificial intelligencePhysicsBiologyArtLiteraturePhilosophyElectrical engineeringEpistemologyPaleontologyQuantum mechanicsOptical Systems and Laser TechnologyAdvanced Control and Stabilization in Aerospace SystemsImage and Video Stabilization
On disturbance rejection control for inertial stabilization of long-distance laser positioning with movable platform | Litcius