Abstract
This paper presents a numerical model for the smart detection of synchronous and parametric roll resonance of a ship. The model implements manoeuvring equations superimposed onto ship dynamics in waves. It also features suited autopilot and rudder actuator models, aiming at a fair depiction of the control delay. The developed method is able to identify and distinguish between synchronous and parametric roll resonance, based on the estimation of encounter wave period from ship motions. Therefore, it could be useful as a smart tool for manned vessels and, also, in the perspective of unmanned and autonomous vessels (in the paper it is assumed a hypothetical remote crew). Once the resonance threat is identified, different evasive actions are simulated and compared, based on course and speed change. Calculations are carried out on a ro-ro pax vessel vulnerable to parametric roll. We conclude that, in roll resonance situations, and in the absence of roll stabilisation systems on-board, course change could be the most effective countermeasure.
Highlights
Recent interest in smart ships brings out new possibilities in vessel operations but, at the same time, involves new challenges [1,2]
This paper focuses on excessive motions arising from parametric and synchronous roll, that are responsible for large accelerations with severe consequences for ship safety
Once the alert is sent, the reaction time would depend on the preparedness of the remote crew, while the control action would depend on its expertise and experience
Summary
Recent interest in smart ships brings out new possibilities in vessel operations but, at the same time, involves new challenges [1,2]. Several methods were developed and presented by the authors of [19,20,21,22] mainly for the detection of parametric roll resonance, aiming at providing on-board decision support systems during navigation. The current paper concerns the enhancement of an autonomous routine for condition detection and analysis; it aims at providing novel insights regarding action planning and control execution that, for the purpose of the paper, are assumed up to the crew.
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