Add to ORKGThe output-feedback design problem for a bilateral teleoperator scheme is considered. The recently proposed Immersion and Invariance (I&I) observer is used to obtain an exponentially convergent estimate of the unmeasured velocities. Moreover, it is proven that when this observer is interconnected to the nonlinear teleoperator together with a Proportional plus damping (P+d) controller, the overall system is globally stable. Finally, in the case when the human operator and the environment do not exert forces on the local and remote manipulator, respectively, global asymptotic convergence to zero of the velocities and of the position tracking error is achieved. These results are obtained by introducing two important design modifications ensu...
Bilateral teleoperation systems are used in different applications to manipulate the environment rem...
In this work, we proposes a control strategy that allows the remote manipulator follow the local man...
This paper presents two versions of adaptive controllers for nonlinear bilateral teleoperators, eac...
The output-feedback design problem for a bilateral teleoperator scheme is considered. The recently p...
Summary This work considers the control of nonlinear bilateral teleoperators with variable time dela...
This paper presents two Proportional-Derivative (PD) like controllers for nonlinear bilateral teleop...
This paper proposes a proportional plus damping injection (P + d) controller for bilateral teleopera...
In this work, we study the bilateral control of a nonlinear teleoperator system with constant delay,...
In this work, we proposes a control strategy by state convergence applied to bilateral control of a...
This paper presents two controllers for a nonlinear bilateral teleoperation system that do not rely ...
A bilateral teleoperation system comprises a human operator, a teleoperator, and an environment. Wit...
The problem of controlling a rigid bilateral teleoperator with time-delays has been effectively addr...
This paper proposes a new nonlinear composite bilateral control framework for n-degree-of-freedom (n...
The problem of controlling a rigid bilateral teleoperator has been the subject of study since the la...
Bilateral teleoperation systems are used in different applications to manipulate the environment rem...
In this work, we proposes a control strategy that allows the remote manipulator follow the local man...
This paper presents two versions of adaptive controllers for nonlinear bilateral teleoperators, eac...
The output-feedback design problem for a bilateral teleoperator scheme is considered. The recently p...
Summary This work considers the control of nonlinear bilateral teleoperators with variable time dela...
This paper presents two Proportional-Derivative (PD) like controllers for nonlinear bilateral teleop...
This paper proposes a proportional plus damping injection (P + d) controller for bilateral teleopera...
In this work, we study the bilateral control of a nonlinear teleoperator system with constant delay,...
In this work, we proposes a control strategy by state convergence applied to bilateral control of a...
This paper presents two controllers for a nonlinear bilateral teleoperation system that do not rely ...
A bilateral teleoperation system comprises a human operator, a teleoperator, and an environment. Wit...
The problem of controlling a rigid bilateral teleoperator with time-delays has been effectively addr...
This paper proposes a new nonlinear composite bilateral control framework for n-degree-of-freedom (n...
The problem of controlling a rigid bilateral teleoperator has been the subject of study since the la...
Bilateral teleoperation systems are used in different applications to manipulate the environment rem...
In this work, we proposes a control strategy that allows the remote manipulator follow the local man...
This paper presents two versions of adaptive controllers for nonlinear bilateral teleoperators, eac...