In this paper, the impedance control paradigm is used to design control algorithms for safe human-robot collaboration. In particular, the problem of controlling a redundant robot manipulator in task space, while guaranteeing a compliant behavior for the redundant degrees of freedom, is considered first. The proposed approach allows safe and dependable reaction of the robot during deliberate or accidental physical interaction with a human or the environment, thanks to null-space impedance control. Moreover, the case of control for co-manipulation is considered. In particular, the role of the kinematic redundancy and that of the impedance parameters modulation are investigated. The algorithms are verified through experiments on a 7R KUKA ligh...
In the framework of interaction control of robotic systems, impedance control represents one of the ...
The present paper proposes an impedance controlmethod called the Multi-Point Impedance Control (MPIC...
This paper proposes an impedance control methodthat can regulate a virtual impedance between a robot...
In this paper, the impedance control paradigm is used to design control algorithms for safe human-ro...
This paper addresses the problem of controlling a robot arm executing a cooperative task with a huma...
Robot control with a compliant motion behaviour is important to guarantee the safety of human robot ...
This paper presents an experimental study on human-robot comanipulation in the presence of kinematic...
In this paper the role of redundancy in Cartesian impedance control of a robotic arm for the executi...
In this paper two approaches for the correct task exe- cution during null-space impedance control of...
The control of robots with a compliant joint motion is important for reducing collision forces and i...
In this work, redundancy resolution and impedance modulation strategies have been employed to enhanc...
In this paper a new approach for the null-space impedance control of a kinematically redundant robot...
In this paper new approaches for task space control during null space compliance control of a kinema...
This paper proposes an impedance control methodfor redundant manipulators, which can control not onl...
In the framework of interaction control of robotic systems, impedance control represents one of the ...
The present paper proposes an impedance controlmethod called the Multi-Point Impedance Control (MPIC...
This paper proposes an impedance control methodthat can regulate a virtual impedance between a robot...
In this paper, the impedance control paradigm is used to design control algorithms for safe human-ro...
This paper addresses the problem of controlling a robot arm executing a cooperative task with a huma...
Robot control with a compliant motion behaviour is important to guarantee the safety of human robot ...
This paper presents an experimental study on human-robot comanipulation in the presence of kinematic...
In this paper the role of redundancy in Cartesian impedance control of a robotic arm for the executi...
In this paper two approaches for the correct task exe- cution during null-space impedance control of...
The control of robots with a compliant joint motion is important for reducing collision forces and i...
In this work, redundancy resolution and impedance modulation strategies have been employed to enhanc...
In this paper a new approach for the null-space impedance control of a kinematically redundant robot...
In this paper new approaches for task space control during null space compliance control of a kinema...
This paper proposes an impedance control methodfor redundant manipulators, which can control not onl...
In the framework of interaction control of robotic systems, impedance control represents one of the ...
The present paper proposes an impedance controlmethod called the Multi-Point Impedance Control (MPIC...
This paper proposes an impedance control methodthat can regulate a virtual impedance between a robot...