Abstract
This paper aims to verify a new automatic berthing system using a path following algorithm. Berthing operation is one of the most burdensome tasks for crews among several ship operations. The maneuverability of a ship at low speed during berthing operation deteriorates and becomes more vulnerable to disturbances such as wind. Therefore, it is necessary to support and automate operations that require advanced skills such as berthing operation. Previous studies on automatic berthing have investigated various methods to handle the nonlinearity of ship maneuvering motion and determine the optimal control variable. There is a trade-off between accuracy and real-time performance of berthing control from these studies. The algorithms must have sufficiently real-time performance while maintaining the accuracy of control. For these purposes, we propose the automatic berthing system applied a path following algorithm for a ship with one propeller and one rudder in this paper. We show the mathematical model for numerical simulation of berthing control and carried out system identification of the subject ship. In full-scale experiments, the proposed system performed automatic berthing control in both calm wind conditions around 2 m/s and strong wind conditions around 6 m/s.
Highlights
Berthing operation is one of the most burdensome tasks for crews among several ship operations [1]
We describe a mathematical model of ship maneuvering motion at low speed, proposed automatic berthing algorithm
We show results of field tests of automatic berthing control using our small experimental ship equipped with a highprecision positioning device using the Quasi-Zenith Satellite System (QZSS)
Summary
Berthing operation is one of the most burdensome tasks for crews among several ship operations [1]. Ship’s speed becomes low during berthing operation. The maneuverability of a ship at low speed deteriorates due to reduced rudder effectiveness and becomes more vulnerable to disturbances such as wind. Berthing operation requires advanced techniques for maneuvering a ship at low speed. In recent years, the domestic shipping industry in Japan has been facing a severe shortage of skilled ship officers and an aging population of seafarers [2]. It is necessary to support or automate operations that require advanced skills such as berthing operation
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