In the civilian field,the role of maritime cargo supply is to ensure people's basic needs to be satisfied,while in the military field,the logistics support of cargo supply may affect the success or failure of local wars.An active wave compensation device installed on the crane is designed for the alongside replenishment system of two ships.The device is a nonlinear,strong coupling,multiple input and multiple output complex system for load pose control.An integral sliding-mode control strategy is proposed to optimize the controller,aiming at the improvement of the control accuracy of general sliding-mode control algorithm.By introducing an integral term,designing a new sliding-mode surface and control rate,and reasonably setting the initial state of the integrator,making the initial state of the system on the sliding surface from the beginning,thereby eliminating the arrival segment and enabling the system to quickly reach a stable state.The sliding-mode control parameters are adjusted automatically by designing fuzzy control rules to reduce the chattering of the integral sliding-mode control,and thus reducing the chattering of the system.Finally,the Lyapunov's second law is used to prove the stability of the system.The simulation experiment also demonstrates the effectiveness of the proposed control method.
关键词
波浪补偿/滑模控制/模糊积分模糊控制/抖振
Key words
wave compensation/sliding-mode control/fuzzy integral fuzzy control/chattering
维普
万方数据