Add to ORKGThis paper addresses an impedance control for free-floating space robot in the grasping of a tumbling target with model uncertainty. Firstly, the operational space dynamics for a free-floating robot is derived with a novel, computationally efficient formulation. Then, considering the grasped target as a disturbance force on the end-effector, the proposed control method is completely independent of the target inertial parameters and the end-effector can follow a given trajectory in the presence of model uncertainty. To verify the effectiveness of the proposed method, a three-dimensional realistic numerical simulation is carried out
Abstract — This paper deals with problems related to the capture of a tumbling satellite by a space ...
Space robotic solutions are gaining importance for undertaking in-orbit operations such as maintenan...
©1995 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
In this letter, a novel method is presented for grasping a partially cooperative tumbling satellite ...
To increase the mobility of on-orbit robotic systems, Space Free-Flying Robots (SFFR) in which one o...
The main impedance control schemes in the task space require accurate knowledge of the kinematics an...
Abstract — Maintaining the grip on an artery with a pulsating impedance, holding the steering wheel ...
Space robotics provides a reliable solution to accomplish manipulation tasks in orbit without the pr...
In the near future robotic systems will be playing an increasingly important role in space applicati...
Humans demonstrate an impressive capability to manipulate fragile objects without damaging them, gra...
This paper presents a Cartesian impedance control for free-flying space robots with elastic joints. ...
The maximum contact force is one of the most important indicators for contact problems. In this pape...
This paper presents a tracking control with guaranteed prescribed performance (PP) for space free-fl...
Abstract: This paper presents a novel impedance control approach for a robot manipulator and analyze...
This paper addresses the singularities avoidance problem while performing a grasping maneuver in tel...
Abstract — This paper deals with problems related to the capture of a tumbling satellite by a space ...
Space robotic solutions are gaining importance for undertaking in-orbit operations such as maintenan...
©1995 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
In this letter, a novel method is presented for grasping a partially cooperative tumbling satellite ...
To increase the mobility of on-orbit robotic systems, Space Free-Flying Robots (SFFR) in which one o...
The main impedance control schemes in the task space require accurate knowledge of the kinematics an...
Abstract — Maintaining the grip on an artery with a pulsating impedance, holding the steering wheel ...
Space robotics provides a reliable solution to accomplish manipulation tasks in orbit without the pr...
In the near future robotic systems will be playing an increasingly important role in space applicati...
Humans demonstrate an impressive capability to manipulate fragile objects without damaging them, gra...
This paper presents a Cartesian impedance control for free-flying space robots with elastic joints. ...
The maximum contact force is one of the most important indicators for contact problems. In this pape...
This paper presents a tracking control with guaranteed prescribed performance (PP) for space free-fl...
Abstract: This paper presents a novel impedance control approach for a robot manipulator and analyze...
This paper addresses the singularities avoidance problem while performing a grasping maneuver in tel...
Abstract — This paper deals with problems related to the capture of a tumbling satellite by a space ...
Space robotic solutions are gaining importance for undertaking in-orbit operations such as maintenan...
©1995 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...