Archivio Istituzionale della RicercaRoll stabilization is a critical aspect of ship motion control, particularly for vessels operating in low-speed or zero-speed conditions, where traditional hydrodynamic fins lose their effectiveness. In this paper, we consider a roll damping system, developed by Navis JSC, based on two actively controlled zero-speed fins. Unlike conventional fin stabilizers, zero-speed fins employ a drag-based mechanism and active oscillations to generate stabilizing forces even when the vessel is stationary. We propose a simple linear control architecture that, however, accounts for nonlinear drag forces and actuator limitations. Simulation results on a high-fidelity vessel model used for HIL testing demonstrate the effectiveness of the proposed approach.
Assessing Linear Control Strategies for Zero-Speed Fin Roll Damping / Savin, Nikita; Ambrosovskaya, Elena; Romaev, Dmitry; Proskurnikov, Anton. - 59:(2025), pp. 776-781. ( 16th IFAC Conference on Control Applications in Marine Systems, Robotics and Vehicles CAMS 2025 Wuhan (PRC) 25-28 agosto, 2025) [10.1016/j.ifacol.2025.11.729].
Assessing Linear Control Strategies for Zero-Speed Fin Roll Damping
Proskurnikov, Anton
2025
Abstract
Roll stabilization is a critical aspect of ship motion control, particularly for vessels operating in low-speed or zero-speed conditions, where traditional hydrodynamic fins lose their effectiveness. In this paper, we consider a roll damping system, developed by Navis JSC, based on two actively controlled zero-speed fins. Unlike conventional fin stabilizers, zero-speed fins employ a drag-based mechanism and active oscillations to generate stabilizing forces even when the vessel is stationary. We propose a simple linear control architecture that, however, accounts for nonlinear drag forces and actuator limitations. Simulation results on a high-fidelity vessel model used for HIL testing demonstrate the effectiveness of the proposed approach.
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https://hdl.handle.net/11583/3005687