Abstract
This paper is concerned with a simple method for the design of autopilots for ships, on an automatic-control-design technique termed pseudo-derivative feedback control. When properly tuned, such controllers are known to possess good transient behaviour when their set-point is altered and to be extremely good alleviating output deviations due to step-changes imposed by external loads disturbing the system. This latter properly appears to carry over when the disturbances are sinusoidal and, by implication, stochastic in form. Such behaviour is generally achieved with modest ammounts of final control-element (e.g. rudder) activity. Evaluation of the autopilot design has been done by simulation using mathematical models of the steering dynamics of a Mariner Class vessel. The evidence to date is that such autopilots may be expected to exhibit robust properties and warrant further detailed investigation.
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