A ride control system (RCS) based linear quadratic regulator (LQR) and genetic
algorithm (GA) design is presented, to reduce the heave, roll and pitch motion
(three degrees of freedom motion (3 DOF motion)) of the wave piercing catamarans
(WPC) in beam waves. A detailed 3 DOF ride control model which consists of the
coupling and decoupling relationships between longitudinal and transverse motion is
proposed for the WPC vessel. And the complex hydrodynamic coefficients and
disturbances induced by beam waves are analyzed. Moreover, two stern flaps are
designed for the system in the way of alternate flapping. In the controller design,
the LQR method based on GA method is adopted to reduce the 3 DOF motion of
the ship. Depending on the robust search mechanism and global optimum of GA,
weighting parameters can be obtained to calculate the desired gain. Finally, the
motion reduction and motion sickness incidence (MSI) results demonstrate the
feasibility and effectiveness of the proposed controller, and the comfort of
passengers and crews can also be improved.
제 1편 : SIMULINK 기본편
1.1 SIMULINK의 시작 1
블록의 연결 5
블록 파라미터의 설정 7
시뮬레이션 파라미터 (Configuration Parameters)의 설정 8
시뮬레이션의 수행 9
블록 파라미터의 표시 9
복수 데이터의 표시 11
2.2 동적 시뮬레이션 13
이차 미분방정식 17
선형 상태변수 모델 23
DC 모터의 시뮬레이션 24
함수 블록의 사용 29
차분방정식(difference equation)의 모델링 34
Subsystem(부시스템)의 구성 37
제 2편 : 연구논문
Design ride control system using two stern flaps based 3 DOF motion
modeling for wave piercing catamarans with beam seas
1. Introduction 41
2. Mathematical model 43
3. Ride control system design of WPC 50
4. Controller design 53
5. Results and discussions 57
6. Conclusion 61
7. Supporting information 63
8. References 64