Add to ORKGThis paper deals with the generation of sufficiently smooth position, velocity, and acceleration references for guiding the motion of an ROV along purposefully defined curvature-continuous paths in automated mis-sions. The references are meant to be employed in high-performance trajectory tracking and dynamic pos-itioning applications. The path planning problem is not in the scope of this work. A reference model that synthesises references concerning a single Degree-of-Freedom (DoF) motion is initially described. Then, the use of the synthesised references as the parametrisation for other references concerning multiple DoF motion along curvature-continuous paths is exploited. Results from computer simulations and full-scale sea trials, both...
In this project a robust adaptive controller has been developed for Minerva, NTNU's research ROV. Th...
In this paper the operation of a recently introduced novel version of the popular "Model Reference A...
In this chapter we review motion planning algorithms for ships, rigs, and autonomous marine vehicle...
This paper deals with the generation of sufficiently smooth position, velocity, and acceleration ref...
This paper deals with the generation of sufficiently smooth position, velocity, and acceleration ref...
This doctoral thesis is concerned with two main subjects, namely path generation and motion control ...
A direct model reference adaptive controller (MRAC) is derived for an underwater vehicle with signif...
a b s t r a c t By using the concept of on-line goal adaptation, we develop a new paradigm of perfor...
By using the concept of on-line goal adaptation, we develop a new paradigm of performance shaping in...
This thesis analyzes the problem of accurate path following for marine vehicles. The reference path...
Control of Remotely Operated Vehicles (ROVs) with manipulator arms require control of all degrees of...
Control of Remotely Operated Vehicles (ROVs) with manipulator arms require control of all degrees of...
A neural network model reference adaptive controller for trajectory tracking of nonlinear systems is...
Control of Remotely Operated Vehicles (ROV) with manipulator arms, require control of all Degrees of...
In this chapter we review motion planning algorithms for ships, rigs, and autonomous marine vehicle...
In this project a robust adaptive controller has been developed for Minerva, NTNU's research ROV. Th...
In this paper the operation of a recently introduced novel version of the popular "Model Reference A...
In this chapter we review motion planning algorithms for ships, rigs, and autonomous marine vehicle...
This paper deals with the generation of sufficiently smooth position, velocity, and acceleration ref...
This paper deals with the generation of sufficiently smooth position, velocity, and acceleration ref...
This doctoral thesis is concerned with two main subjects, namely path generation and motion control ...
A direct model reference adaptive controller (MRAC) is derived for an underwater vehicle with signif...
a b s t r a c t By using the concept of on-line goal adaptation, we develop a new paradigm of perfor...
By using the concept of on-line goal adaptation, we develop a new paradigm of performance shaping in...
This thesis analyzes the problem of accurate path following for marine vehicles. The reference path...
Control of Remotely Operated Vehicles (ROVs) with manipulator arms require control of all degrees of...
Control of Remotely Operated Vehicles (ROVs) with manipulator arms require control of all degrees of...
A neural network model reference adaptive controller for trajectory tracking of nonlinear systems is...
Control of Remotely Operated Vehicles (ROV) with manipulator arms, require control of all Degrees of...
In this chapter we review motion planning algorithms for ships, rigs, and autonomous marine vehicle...
In this project a robust adaptive controller has been developed for Minerva, NTNU's research ROV. Th...
In this paper the operation of a recently introduced novel version of the popular "Model Reference A...
In this chapter we review motion planning algorithms for ships, rigs, and autonomous marine vehicle...