Jiang-peng Song scite author profile

The line-of-sight (LOS) kinematics and dynamics of a mirror-stabilized platform are derived using the virtual mass stabilization method. Accounting for the coupled and nonlinear kinematics and dynamics, the uncertainty of external disturbances, and the actuator input saturation in the mirror-stabilized platform, a modified adaptive robust control (ARC) scheme is proposed based on the command filtered method and the extended state observer (ESO). The command-filtered approach is used to ensure the stability and tracking performance of the adaptive control system under the input saturation. In the proposed scheme, the ESO is designed to observe the modeling error and unknown external disturbances. The stability of the control system is proved using the Lyapunov method. Simulation results and experimental results proved that the proposed control scheme can effectively reduce the occurrence of input saturation, attenuate the effect of unknown disturbances, and improve the position tracking accuracy.

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Robust control with compensation of adaptive model for dual-stage inertially stabilized platform

Song

Zhou

Sun³

et al. 2018

J. Cent. South Univ.

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Robust Dual Stage Control for Inertially Stabilized Platform

Song

Zhou

Sun³

et al. 2017

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Micro-scanning mechanism design based on dynamic model

Huang¹,

Sun²,

Song³

et al. 2018

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Jiang-peng Song

Target trajectory prediction based on neural network and Kalman filtering

Adaptive Robust Control for Mirror-Stabilized Platform With Input Saturation

Robust control with compensation of adaptive model for dual-stage inertially stabilized platform

Robust Dual Stage Control for Inertially Stabilized Platform

Micro-scanning mechanism design based on dynamic model

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