Title :
Design of fin stabilizers control system with optimal added resistance
Author :
Jin Hongzhang ; Liu Zhiquan ; Qi Zhigang ; Jiang Shuqiang
Author_Institution :
Coll. of Autom., Harbin Eng. Univ., Harbin, China
Abstract :
Large roll motion induced by sea waves can severely affect the performance of seagoing surface vessels. In the meanwhile, the ship speed will loss due to added resistance caused by ship motions, especially in moderate to high sea states. In addition, with increasing needs for energy savings and emissions reduction, the effect of added resistance on ship navigation performance and control quality must be considered when a ship roll stabilisation control system is designed. Therefore an alternative Roll-Added-Resistance (RAR) model is introduced to solve this problem base on the near field method. The software ANSYS-AQWA is chose to determine model parameters. As an application, fin stabilizers system is activated with a generalised minimum variance (GMV) controller. Two kinds of reference signals are adopted to investigate the effectiveness of this idea.
Keywords :
control system synthesis; motion control; navigation; ocean waves; optimal control; ships; stability; ANSYS-AQWA software; GMV controller; RAR model; control quality; emission reduction; energy saving; fin stabilizers control system design; generalised minimum variance controller; high sea state; large roll motion; model parameter determination; moderate sea state; near field method; optimal added resistance; reference signals; roll-added-resistance model; sea waves; seagoing surface vessel; ship motion; ship navigation performance; ship roll stabilisation control system design; ship speed; Control systems; Equations; Immune system; Marine vehicles; Mathematical model; Resistance; Vectors; ANSYS-AQWA; Added resistance; fin stabilisers; generalised minimum variance; near field method;
Conference_Titel :
Control Conference (CCC), 2013 32nd Chinese
Conference_Location :
Xi´an
