Add to ORKGThis paper presents a path planning method for sea surface vehicles that prevents capsizing and bow-diving in a high sea-state. A key idea is to use response amplitude operators (RAOs) or, in control terminology, the transfer functions from a sea state to a vessel's motion, in order to find a set of speeds and headings that results in excessive pitch and roll oscillations. This information is translated to arithmetic constraints on the ship's velocity, which are passed to a model predictive control (MPC)-based path planner to find a safe and optimal path that achieves specified goals. An obstacle avoidance capability is also added to the path planner. The proposed method is demonstrated by simulations
This paper presents a motion planning algorithm for Unmanned Surface Vehicles (USVs) to navigate saf...
Autonomous navigation for unmanned surface vessels is a modern and rapidly growing field of research....
With autonomy offering a number of benefits in robotics applications, such as increased safety, bett...
Presently, there is increasing interest in autonomous ships to reduce human errors and support intel...
Autonomous surface vehicles are gaining increasing attention worldwide due to the potential benefits...
Autonomous surface vehicles are gaining increasing attention worldwide due to the potential benefits...
In recent years, unmanned surface vehicles (USVs) have received notable attention because of their m...
In recent years, unmanned surface vehicles (USVs) have received notable attention because of their m...
This paper presents a rule-compliant trajectory optimization method for the guidance and control of ...
This paper presents a rule-compliant trajectory optimization method for the guidance and control of ...
While collisions and groundings still represent the most important source of accidents involving shi...
This thesis presents topics related to collision avoidance (COLAV) and motion control for autonomous...
In the past decades, autonomy has gone from a technology of the future to an inevitability. Driver-l...
Autonomous Surface Vehicles (ASVs) offer the potential of performing dirty, dull, and dangerous mis...
Efficient path planning is a critical issue for the navigation of modem unmanned surface vehicles (U...
This paper presents a motion planning algorithm for Unmanned Surface Vehicles (USVs) to navigate saf...
Autonomous navigation for unmanned surface vessels is a modern and rapidly growing field of research....
With autonomy offering a number of benefits in robotics applications, such as increased safety, bett...
Presently, there is increasing interest in autonomous ships to reduce human errors and support intel...
Autonomous surface vehicles are gaining increasing attention worldwide due to the potential benefits...
Autonomous surface vehicles are gaining increasing attention worldwide due to the potential benefits...
In recent years, unmanned surface vehicles (USVs) have received notable attention because of their m...
In recent years, unmanned surface vehicles (USVs) have received notable attention because of their m...
This paper presents a rule-compliant trajectory optimization method for the guidance and control of ...
This paper presents a rule-compliant trajectory optimization method for the guidance and control of ...
While collisions and groundings still represent the most important source of accidents involving shi...
This thesis presents topics related to collision avoidance (COLAV) and motion control for autonomous...
In the past decades, autonomy has gone from a technology of the future to an inevitability. Driver-l...
Autonomous Surface Vehicles (ASVs) offer the potential of performing dirty, dull, and dangerous mis...
Efficient path planning is a critical issue for the navigation of modem unmanned surface vehicles (U...
This paper presents a motion planning algorithm for Unmanned Surface Vehicles (USVs) to navigate saf...
Autonomous navigation for unmanned surface vessels is a modern and rapidly growing field of research....
With autonomy offering a number of benefits in robotics applications, such as increased safety, bett...