Add to ORKGUnderwater robotic systems can be used for a variety of operations, from reparations of sub-sea installations, to perform inspections and surveys. Such operations will demand robust and fast kinematic control, if they were to be executed automatically. Development of an inverse kinematic solver for a vehicle-manipulator system is very intricate, and it is therefore implemented on the small, humanoid robot Nao. This enables frequent testing and refinement of the solution algorithm, to create a good foundation for further development on underwater platforms
DoctorThis thesis addresses a robust coordinated motion control of underwater vehicle-manipulator sy...
In this paper we present a control framework for a novel biologically inspired underwater swimming m...
This work is aimed at discussing the solution of the inverse kinematic problem using Multi- Objectiv...
This book, now at the third edition, addresses the main control aspects in underwater manipulation t...
For using underwater vehicle-manipulator systems (UVMS) in a challenging envi-ronment, it is importa...
For using underwater vehicle-manipulator systems (UVMS) in a challenging envi-ronment, it is importa...
It is proposed to use anchor manipulators to provide a stable operating environment for underwater r...
Underwater vehicles have carried out subsea operations for many decades, and since the 1980s, remote...
This paper considers the kinematic control approach for controlling an underwater vehicle-manipulato...
Traditional control of robot manipulators assume that the base of the manipulator is fixed in the en...
Underwater vehicles have carried out subsea operations for many decades, and since the 1980s, remote...
e present a control algorithm for autonomous underwater robots with modular thruster configuration. ...
Ph.D. University of Hawaii at Manoa 2010.Includes bibliographical references.With the increasing int...
In this paper a dynamic model of an underwater vehicle--manipulator system is derived. The iterative...
The inverse kinematics plays an important role in the trajectory planning and the control of underwa...
DoctorThis thesis addresses a robust coordinated motion control of underwater vehicle-manipulator sy...
In this paper we present a control framework for a novel biologically inspired underwater swimming m...
This work is aimed at discussing the solution of the inverse kinematic problem using Multi- Objectiv...
This book, now at the third edition, addresses the main control aspects in underwater manipulation t...
For using underwater vehicle-manipulator systems (UVMS) in a challenging envi-ronment, it is importa...
For using underwater vehicle-manipulator systems (UVMS) in a challenging envi-ronment, it is importa...
It is proposed to use anchor manipulators to provide a stable operating environment for underwater r...
Underwater vehicles have carried out subsea operations for many decades, and since the 1980s, remote...
This paper considers the kinematic control approach for controlling an underwater vehicle-manipulato...
Traditional control of robot manipulators assume that the base of the manipulator is fixed in the en...
Underwater vehicles have carried out subsea operations for many decades, and since the 1980s, remote...
e present a control algorithm for autonomous underwater robots with modular thruster configuration. ...
Ph.D. University of Hawaii at Manoa 2010.Includes bibliographical references.With the increasing int...
In this paper a dynamic model of an underwater vehicle--manipulator system is derived. The iterative...
The inverse kinematics plays an important role in the trajectory planning and the control of underwa...
DoctorThis thesis addresses a robust coordinated motion control of underwater vehicle-manipulator sy...
In this paper we present a control framework for a novel biologically inspired underwater swimming m...
This work is aimed at discussing the solution of the inverse kinematic problem using Multi- Objectiv...