The disturbance attenuation problem with global internal stability is solved for elastic joint robots in the general case of unknown constant parameters. By using recent results on the adaptive control of elastic joint robots, one can solve the problem of disturbance attenuation directly on the perturbed system by exploiting the property of linearity in the parameters. This paper therefore combines adaptive control techniques with H∞ ones
This paper presents a new feedforward controller based on a continuous-time finite impulse response ...
In this paper, a new adaptive-robust control approach for robot manipulators is developed. The adapt...
In this paper, we deal with the problem of global tracking and stabilization control of internally d...
The disturbance attenuation problem with global internal stability is solved for both rigid and elas...
In this paper a tracking controller for rigid robots is presented solving a disturbance attenuation ...
The tracking problem is considered for robots having flexible joints. We propose a state feedback co...
This brief addresses a robust adaptive control scheme based on a cascaded structure with a full stat...
International audiencePresents an adaptive control scheme for flexible joint robot manipulators. Asy...
The adaptive control of flexible joint robot manipulators using composite control is presented first...
This paper presents an extension to elastic joint robots of a well-known result on the quadratic opt...
Feedback linearization is a viable nonlinear control technique for solving trajectory tracking probl...
For a general class of robots with elastic joints, we in-troduce an inversion algorithm for the synt...
This paper addresses a robust adaptive control scheme based on a cascaded structure with a full stat...
Developing nonlinear adaptive and robust controllers for a two-link flexible robot arm is the main o...
In this paper, we present a novel global tracking control approach for elastic-joint robots that can...
This paper presents a new feedforward controller based on a continuous-time finite impulse response ...
In this paper, a new adaptive-robust control approach for robot manipulators is developed. The adapt...
In this paper, we deal with the problem of global tracking and stabilization control of internally d...
The disturbance attenuation problem with global internal stability is solved for both rigid and elas...
In this paper a tracking controller for rigid robots is presented solving a disturbance attenuation ...
The tracking problem is considered for robots having flexible joints. We propose a state feedback co...
This brief addresses a robust adaptive control scheme based on a cascaded structure with a full stat...
International audiencePresents an adaptive control scheme for flexible joint robot manipulators. Asy...
The adaptive control of flexible joint robot manipulators using composite control is presented first...
This paper presents an extension to elastic joint robots of a well-known result on the quadratic opt...
Feedback linearization is a viable nonlinear control technique for solving trajectory tracking probl...
For a general class of robots with elastic joints, we in-troduce an inversion algorithm for the synt...
This paper addresses a robust adaptive control scheme based on a cascaded structure with a full stat...
Developing nonlinear adaptive and robust controllers for a two-link flexible robot arm is the main o...
In this paper, we present a novel global tracking control approach for elastic-joint robots that can...
This paper presents a new feedforward controller based on a continuous-time finite impulse response ...
In this paper, a new adaptive-robust control approach for robot manipulators is developed. The adapt...
In this paper, we deal with the problem of global tracking and stabilization control of internally d...