Abstract
It is common that underactuated surface vessels sailing on the sea suffer from strong external sea disturbances, such that the large roll motion can be probably caused resulting to the bad performance of path following. In order to realize the coordinate control of the rudder roll stabilization and path following, a robust controller with roll constraints is designed by combining predictive control with disturbance observer. Firstly, the rudder angle operating range is divided in the Serret–Frenet coordination frame, and then linear models corresponding to different equilibrium can be established with heading control and roll dynamics. Secondly, considering external disturbance and unmodeled error as the lumped disturbances, the disturbance observer can be utilized to achieve the real-time feedforward compensation leading to the improved system robustness. Thirdly, the output redefinition method is adopted to transfer the original system into a new minimum phase system. Based on the receding horizon and state prediction strategies of the predictive control, the analytical control law can be obtained, and the linear programming method is used to guarantee the roll constraint for the simplified computational burden. Lastly, the simulations have been carried out to show the good performance of the proposed algorithm with the heading control and roll reduction.
Highlights
Referring to the marine problems, path following has been a mainstream direction due to military and civilian necessities in recent years
The main objectives of this study include: 1. With the disturbance compensating strategy, a robust model predictive control (MPC) control is proposed for the nonlinear models of surface vessels with roll constraint in order to achieve the path following and rudder roll stabilization simultaneously
The simulation results are as follows: 1. If the system measurement matrix is chosen as C 1⁄4 1⁄2 1 1 1 1 1 , it can be obtained from the analyses in the “System analysis of minimum phase characteristics” subsection that the nonminimum phase characteristic of the control system can lead to the system divergence
Summary
Referring to the marine problems, path following has been a mainstream direction due to military and civilian necessities in recent years. With the disturbance compensating strategy, a robust MPC control is proposed for the nonlinear models of surface vessels with roll constraint in order to achieve the path following and rudder roll stabilization simultaneously. After the wave analysis, considering the advantages of robust MPC in tacking with constrained multivariable optimization problems, it is adopted to achieve the coordinate control of path following and rudder roll stabilization. The analyzed problem in this article can be described as: For the path following model (2) with ship dynamics (4), taking the wave disturbances on the sea into account, an integrated controller dðkÞ 1⁄4 dmpcðkÞ þ ddcðkÞ is designed, such that the desired heading angle can be followed with the constrained roll angle and restrained disturbances in order to improve the system stability and robustness.
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