Title :
Research on positioning operation control method of J-lay vessel
Author :
Dongyan, Zhao ; Xinqian, Bian ; Cuihe, Chen ; Mingyu, Fu ; Wenbo, Xie ; Lianbo, Cai
Author_Institution :
China Offshore Oil Eng. Co. Ltd., China
Abstract :
Ship mathematical model and environmental disturbance model of a J-lay vessel are built, the model of pipe horizontal forces and moment acting on the ship is built by catenary theory. In order to avoid the ship´s high frequency motion component disturbing the closed-loop control system, passive nonlinear observer is applied to estimate the vessel´s low frequency variables during positioning process. Ship positioning operation controller is designed by the acceleration feedback and PID control strategy with pipeline action as feedforward term. Simulation results are used exclusively to demonstrate the observer and controller with established model for J-lay vessel.
Keywords :
closed loop systems; feedforward; observers; position control; ships; three-term control; J-lay vessel; PID control; acceleration feedback; catenary theory; closed-loop control system; environmental disturbance model; feedforward term; high frequency motion; passive nonlinear observer; pipe horizontal forces; positioning operation control; ship mathematical model; Acceleration; Force; Marine vehicles; Mathematical model; Observers; Pipelines; Surges; Dynamic Positioning; acceleration feedback; passive observer; pipelay;
Conference_Titel :
Mechatronics and Automation (ICMA), 2011 International Conference on
Conference_Location :
Beijing
Print_ISBN :
978-1-4244-8113-2
DOI :
10.1109/ICMA.2011.5986337
