Multi-Cylinder Synchronization Control Strategy with State Constraint Based on Disturbance Observer

Abstract

Proposed in this paper is a state-constrained synchronous control strategy based on disturbance observer for the multi-cylinder synchronous pulling process of hydraulic support group. First, The relationship among multiple cylinders is analyzed. Next, based on the theory of equal control, a disturbance observer is designed for each subsystem to estimate and compensate the uncertainties and external disturbances of the system. Then, the maximum errors of the system's position and velocity are limited by using the barrier Lyapunov theory, and the dynamic surface theory is introduced to avoid differential explosion in backstepping design and simplify the design of the controller. Moreover, ZY3200/08/18D electro-hydraulic control hydraulic support is used as a model to carry out simu-lation analysis in Simulink, and, finally, a simulation test platform is built for verification. Simulation and experiment results show that the proposed control strategy is of higher trajectory tracking accuracy and synchronization accuracy.