The design and evaluation of a control system, which can be
utilised for the automatic guidance of large ships in confined or
restricted waters, is investigated.
The vessel is assumed to be a multivariable system and it is
demonstrated that a non-linear, time-varying mathematical model
most accurately describes the motion of the hull, particularly in
tight manoeuvres.
A discrete optimal controller has been designed to control
simultaneously track, heading and forward velocity. The system is
most effective whilst operating under a dual-mode policy. It is
shown that feedback matrix adaption is necessary to deal with
changes in forward velocity and a form of gain scheduling is proposed.
Active disturbance control is employed to counteract effects of wind
and tide.
An inertial navigation system, together with an optimal controller
and filter, is installed on-board a car ferry model. Free-sailing
tests show that the performance characteristics of the system are in
accordance with theoretical predictions.
The feasibility of implementation on a full-size vessel is
considered.
Date of Award | 1984 |
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Original language | English |
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Awarding Institution | |
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THE AUTOMATIC CONTROL OF LARGE SHIPS IN CONFINED WATERS
BURNS, R. S. (Author). 1984
Student thesis: PhD