Mingxiao Sun, Houxin Lian, Yongde Zhang, and Tiantian Luan


  1. [1] J. Jiao, S. Huang, and C.G. Soares, Numerical investigation ofship motions in cross waves using CFD, Ocean Engineering,223, 2021, 108711.
  2. [2] Y.H. Wang, Y.L. Tuo, S.X. Yang, and M.Y. Fu, Nonlinearmodel predictive control of dynamic positioning of deep-seaships with a unified model, International Journal of Roboticsand Automation, 31(6), 2016, 519–529.
  3. [3] L. Hu, H. Wu, Z. Yuan, W. Li, and X. Wang, Roll motionresponse analysis of damaged ships in beam waves, OceanEngineering, 227, 2021(2), 108558.
  4. [4] D. Maalouf, V. Creuze, A. Chemori, and O. Tempier,Feedforward inertial actuation for roll stabilization of anunderactuated underwater vehicle, International Journal ofRobotics and Automation, 30(1), 2015, 79–86.
  5. [5] I.A. Jimoh, I.B. K¨u¨ukdemiral, and G. Bevan, Fin controlfor ship roll motion stabilisation based on observer enhancedMPC with disturbance rate compensation, Ocean Engineering,224(4), 2021, 108706.
  6. [6] L.H. Liang, M.X. Sun, H.Y. Shi, and T.T. Luan, Design andanalyze a new measuring lift device for fin stabilizers usingstiffness matrix of Euler-Bernoulli beam, PLoS One, 12(1),2017, 1–13.
  7. [7] Z.X. Zhu, J.F. Zhong, M.Z. Ding, and M.M. Wang,Trajectory planning and hierarchical sliding-mode control ofunderactuated space robotic system, International Journal ofRobotics and Automation, 35(6), 2020, 436–443.
  8. [8] M.X. Sun, T.T. Luan, L.H. Liang, and Y.W. Liu, Lift detectionand analysis of fin stabilizers shaft based on Euler-Bernoullistiffness matrix, Journal of Ship Mechanics, 22(08), 2018,944–954.
  9. [9] L.H. Liang, M.X. Sun, and T.T. Luan, Design of adaptivecontrol system for lift feedback of fin stabilizer, Journal ofHarbin Engineering University, 38(11), 2017, 1739–1744.
  10. [10] C.C. Ku and C.Y. Hsu, Robust control of delayed fin stabilizerstochastic systems of a ship, Proceedings of Engineering andTechnology Innovation, 10, 2018, 13–18.
  11. [11] S.T. Zhang and P. Zhao, L2-gain based adaptive robust heel/rollreduction control using fin stabilizer during ship turns, Journalof Marine Science and Engineering, 9(01), 2021, 89.
  12. [12] Y.T. Zhang, W.R. Shi, and M.B. Qiu, Sliding backsteppingcontrol for fin stabilizer with nonlinear disturbance observer,Control and Decision, 25(08), 2010, 1255–1260.
  13. [13] M. Moradi and H. Malekizade, Robust adaptive first-second-order sliding mode control to stabilize the uncertain fin-rolldynamic, Ocean Engineering, 69, 2013, 18–23.
  14. [14] L.H. Liang, M.X. Sun, and T.T. Luan, Design fuzzy input-based adaptive sliding mode control for vessel lift-feedbackfin stabilizers with shock and vibration of waves, Shock andVibration, 2017, 2017, 1–13.
  15. [15] J.G. Song, L.H. Liang, H.Z. Jin, and Z.G. Qi, Adaptive master-slave controller for zero-speed fin stabilizer, Control Theoryand Applications, 32(05), 2015, 703–708.
  16. [16] R.H. Li, T.S. Li, W.W. Bai, and X. Du, An adaptive neuralnetwork approach for ship roll stabilization via fin control,Neurocomputing, 173, 2016, 953–957.
  17. [17] J.G. Song, L.H. Liang, S.T. Zhang, and J.M. Wang, Designand experimental investigation of a GA-based control strategyfor a low-speed fin stabilizer, Ocean Engineering, 218, 2020,108234.
  18. [18] H.G. Zhang, X.K. Zhang, and R.X. Bu, Sliding mode adaptivecontrol for ship path following with sideslip angle observer,Ocean Engineering, 251, 2022, 111106.
  19. [19] M.X. Sun, T.T. Luan, and L.H. Liang, RBF neural networkcompensation-based adaptive control for lift-feedback systemof ship fin stabilizers to improve anti-rolling effect, OceanEngineering, 163, 2018, 307–321.
  20. [20] W.R. Shi, F. Tao, and Y.T. Zhang, Adaptive sliding modecontrol for fin stabilizer based on RBF neural network, ControlEngineering of China, 19(06), 2012, 978–986.8

Important Links:

Go Back