Numerical Simulation of the Motion of a Large Scale Unmanned Surface Vessel in High Sea State Waves

Abstract: The motion stability of the Unmanned Surface Vessel (USV) is threatened by the action of waves under a rough sea state. In the present paper, the motion of a large-scale USV is numerically simulated under high sea state of level 5 and 7. The overset grid method and Reynolds Averaged Navier–Stokes (RANS) approach are employed to solve Navier–Stokes (N-S) equations. For the case of wave incident angle 0° and 30°, the heave, pitch and roll motion response of a large scale USV are investigated by using the six Deg… Show more

“…Therefore, the autonomy of the USV is essential. This depends on two complex and changeable environmental parameters: wind and current [17,18]. Ignoring the environmental impact in motion planning would not only lead to a great waste of energy when the USV navigates strong ocean currents, but would also increase the potential risk of hitting obstacles.…”

Ship Motion Planning for MASS Based on a Multi-Objective Optimization HA* Algorithm in Complex Navigation Conditions

“…Therefore, the autonomy of the USV is essential. This depends on two complex and changeable environmental parameters: wind and current [17,18]. Ignoring the environmental impact in motion planning would not only lead to a great waste of energy when the USV navigates strong ocean currents, but would also increase the potential risk of hitting obstacles.…”

Ship Motion Planning for MASS Based on a Multi-Objective Optimization HA* Algorithm in Complex Navigation Conditions

Research on USV Heading Control Algorithm Based on Model Predictive Control

Time-varying encounter angle trajectory tracking control of unmanned surface vehicle based on wave modeling