Add to ORKGIn this brief, Lyapunov-based design techniques are utilized to propose a 2.5D visual servoing controller which stabilizes the robot end-effector pose while satisfying practical constraints on the sensing and the actuation. First, a nominal feedback controller is introduced which is then modified through an optimization-based approach in order to satisfy the constraints related to limited camera field-of-view and size of actuation. In the absence of actuator constraints, the proposed control law yields semi-global asymptotic (exponential) stability. When actuator constraints are introduced, the result is local asymptotic stability with known bounds on the region of attraction. Simulation and experimental results demonstrate the effectivenes...
Purpose - The purpose of this paper is to present the control of six degrees of freedom (PUMA560) ro...
This paper presents a stable correspondence-free image-based visual servoing approach. Unlike classi...
International audienceThis chapter introduces visual servo control, using computer vision data in th...
In this brief, Lyapunov-based design techniques are utilized to propose a 2.5D visual servoing contr...
In this paper, a 2.5D visual servoing controller is proposed that utilizes a Lyapunov based design m...
There is significant motivation to provide robotic systems with improved autonomy as a means to sign...
International audienceWe propose an approach to vision-based robot control, called 2 1/2 D visual se...
In this technical note, a robust adaptive uncalibrated visual servo controller is proposed to asympt...
Abstract An Image Based Visual Servoing controller for the tip trajectory tracking of rigid manipula...
International audienceImage moments provide an important class of image features used for image-base...
In this thesis, a constraint-aware visual servoing control law is proposed. The control law is desig...
A novel saturated visual control strategy for nonholonomic mobile robots is presented. The principal...
International audienceThis paper proposes a new way to achieve robotic tasks by visual servoing. Ins...
Lyapunov-Based Control of Robotic Systems describes nonlinear control design solutions for problems ...
We consider the problem of visually servoing a legged vehicle with unicycle-like nonholonomic constr...
Purpose - The purpose of this paper is to present the control of six degrees of freedom (PUMA560) ro...
This paper presents a stable correspondence-free image-based visual servoing approach. Unlike classi...
International audienceThis chapter introduces visual servo control, using computer vision data in th...
In this brief, Lyapunov-based design techniques are utilized to propose a 2.5D visual servoing contr...
In this paper, a 2.5D visual servoing controller is proposed that utilizes a Lyapunov based design m...
There is significant motivation to provide robotic systems with improved autonomy as a means to sign...
International audienceWe propose an approach to vision-based robot control, called 2 1/2 D visual se...
In this technical note, a robust adaptive uncalibrated visual servo controller is proposed to asympt...
Abstract An Image Based Visual Servoing controller for the tip trajectory tracking of rigid manipula...
International audienceImage moments provide an important class of image features used for image-base...
In this thesis, a constraint-aware visual servoing control law is proposed. The control law is desig...
A novel saturated visual control strategy for nonholonomic mobile robots is presented. The principal...
International audienceThis paper proposes a new way to achieve robotic tasks by visual servoing. Ins...
Lyapunov-Based Control of Robotic Systems describes nonlinear control design solutions for problems ...
We consider the problem of visually servoing a legged vehicle with unicycle-like nonholonomic constr...
Purpose - The purpose of this paper is to present the control of six degrees of freedom (PUMA560) ro...
This paper presents a stable correspondence-free image-based visual servoing approach. Unlike classi...
International audienceThis chapter introduces visual servo control, using computer vision data in th...