Browse > Article
http://dx.doi.org/10.7837/kosomes.2019.25.3.306

Adaptive Sliding Mode Control Synthesis of Maritime Autonomous Surface Ship  

Lee, Sang-Do (Korea e-Navi Information Technology Co. LTD.)
Xu, Xiao (Department of Logistics Engineering, Korea Maritime and Ocean University)
Kim, Hwan-Seong (Department of Logistics Engineering, Korea Maritime and Ocean University)
You, Sam-Sang (Division of Mechanical Engineering, Korea Maritime and Ocean University)
Publication Information
Journal of the Korean Society of Marine Environment & Safety / v.25, no.3, 2019 , pp. 306-312 More about this Journal
Abstract
This paper investigates to design a controller for maritime autonomous surface ship (MASS) by means of adaptive super-twisting algorithm (ASTA). A input-out feedback linearization method is considered for multi-input multi-output (MIMO) system. Sliding Mode Controller (SMC) is suitable for MASS subject to ocean environments due to its robustness against parameter uncertainties and disturbances. However, conventional SMC has inherent disadvantages so-called, chattering phenomenon, which resulted from the high frequency of switching terms. Chattering may cause harmful failure of actuators such as propeller and rudder of ships. The main contribution of this work is to address an appropriate controller for MASS, simultaneously controls surge and yaw motion in severe step inputs. Proposed control mechanism well provides convergence bewildered by external disturbances in the middle of steady-state responses as well as chattering attenuation. Also, the adaptive algorithm is contributed to reducing non-overestimated value of control gains. Control inputs of surge and yaw motion are displayed by smoother curves without excessive control activities of actuators. Finally, no overshoot can be seen in transient responses.
Keywords
Maritime autonomous surface ship (MASS); Adaptive super-twisting algorithm (ASTA); Control synthesis; 3 DOF; Disturbances; Robustness;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Davila, A., J. Moreno and L. Fridman(2010), Variable Gains Super-Twisting Algorithm: A Lyapunov Based Design, Proceedings of American Control Conference, Baltimore, MD, USA, pp. 968-973.
2 Do, K. D., Z. P. Jiang and J. Pan(2004), Robust Adaptive Path Following of Underactuated Ships, Automatica, Vol. 40, pp. 929-944.   DOI
3 Do, K. D. and J. Pan(2009), Control of Ships and Underwater Vehicles, Design for Underactuated and Nonlinear Marine Systems, Springer-Verlag London Limited, pp. 52-56.
4 Edwards, C. and Y. B. Shtessel(2016), Adaptive Continuous Higher Order Sliding Mode Control, Automatica, Vol. 65, pp. 183-190.   DOI
5 Fossen, T. I.(2011), Handbook of Marine Craft Hydro dynamics and Motion Control, First Edition, John Wiley & Sons Ltd. pp. 133-136.
6 Han, Y. and W. Pan(2016), Gain-scheduled Continuous High order Sliding Mode Control for Uncertain Nonlinear System, Optik, Vol. 127, pp. 4345-4354.   DOI
7 Lee, H. and V. I. Utkin(2007), Chattering Suppression Methods in Sliding Mode Control Systems, Annual Reviews in Control, Vol. 31, pp. 179-185.   DOI
8 Lee, S. D., B. K. Lee and S. S. You(2018), Sliding Mode Control with Super-Twisting Algorithm for Surge Oscillation of Mooring Vessel System, Journal of the Korean Society of Marine Environment & Safety, Vol. 24, No. 7. pp. 953-959.   DOI
9 Li, J. H., P. M. Lee, B. H. Jun and Y. K. Lim(2008), Point-to-point Navigation of Underactuated Ships, Automatica, Vol. 44. pp. 3201-3205.   DOI
10 Plestan, F., Y. Shtessel, V. Bregeault and A. Poznyak(2010), New Methodologies for Adaptive Sliding Mode Control, International Journal of Control, Vol. 83, pp. 1907-1919.   DOI
11 Shtessel, Y., M. Taleb and F. Plestan(2012), A Novel Adaptive-gain Super-twisting Sliding Mode Controller: Methodology and Application, Automatica, Vol. 48, pp. 759-769.   DOI
12 Yi-geng, H.(2010), Research of Nonlinear System High Order Sliding Mode Control and its Applications for PMSM, Ph.D. Dissertation, pp. 65-70.
13 Shtessel, Y., J. A. Moreno and L. M. Fridman(2017), Twisting Sliding Mode Control with Adaptation: Lyapunov Design, Methodology and Application, Automatica, Vol. 75, pp. 229-235.   DOI