Multi-objective model predictive control for ship roll motion with gyrostabilizers

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Hu, Lifen and Zhang, Ming and Li, Gang and Yuan, Zhiming and Bi, Junying and Guo, Yanli (2024) Multi-objective model predictive control for ship roll motion with gyrostabilizers. Ocean Engineering, 313 (Part 1). 119412. ISSN 0029-8018 (https://doi.org/10.1016/j.oceaneng.2024.119412)

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Abstract

Ships are prone to significant roll motion while sailing in adverse conditions, posing a serious threat to ship safety and maneuverability. Therefore, effective ship motion control is crucial. Integrating the MPC control algorithm with a gyrostabilizer can effectively achieve this goal. To evaluate and compare control strategies, a multi-objective model predictive control is proposed that integrates considerations of ship motion, safety, and energy consumption to conduct the operation concurrently. By assigning different weights to these factors, the study aims to discern the varying impacts on control effectiveness. The response of ship roll motion in beam waves is evaluated through roll hydrodynamic modelling, accounting for wave memory effects. A state-space model of ship and gyrostabilizers is proposed to represent their dynamic interaction and response to external moment. Subsequently, the influence of different weightings in the multi-objective model predictive control is compared, and the control performances of a frigate under different wave conditions are analyzed respectively. The multi-objective model predictive control, with varied weight assignments, leads to distinct reductions in roll motions. This investigation offers valuable insights into controlling roll motion in beam wave conditions, effectively reducing motion under varying sea conditions, and providing alternative guidance tailored to user preferences.

ORCID iDs

Hu, Lifen, Zhang, Ming, Li, Gang, Yuan, Zhiming ORCID logoORCID: https://orcid.org/0000-0001-9908-1813, Bi, Junying and Guo, Yanli;
CORE (COnnecting REpositories)