The control of articulated soft robots, i.e. robots with flexible joints and rigid links, presents a challenge due to their in- trinsic elastic elements and nonlinear force-deflection dependency. This letter first proposes a discrete-time delayed unknown input- state observer based on a nominal robot model that reconstructs the total torque disturbance vector, resulting from the imperfect knowledge of the elastic torque characteristic, external torques, and other model uncertainties. Then, it introduces a robust controller, that actively compensates for the estimated uncertainty and allows bounded stability for the tracking of independent link position and joint stiffness reference signals. The convergence of the disturbance estimator and t...
This paper presents the first input-output robust control design for the trajectory following proble...
Trajectory tracking control for a tendon driven series elastically actuated robotic arm is considere...
International audienceThis article develops a systematic framework for dynamic tracking control of s...
The control of articulated soft robots, i.e. robots with flexible joints and rigid links, presents a...
This paper tackles the problem of controlling articulated soft robots (ASRs), i.e., robots with eith...
Currently, the access to the knowledge of stiffness values is typically constrained to a-priori iden...
With the expansion of collaborative robots, the necessity to ensure safe interaction between humans ...
A position and force control concept for an industrial robot with elasticity in joints and links is ...
This article addresses the problem of simultaneous and robust closed-loop control of joint stiffness...
Articulated soft robots (ASRs) increasingly gain importance due to their remarkable advantages such...
An approach is presented to the control of an uncertain nonlinear flexible robot arm (PUMA-type) wit...
This letter addresses the stiffness estimation problem for flexible robot joints, driven by variable...
Modern robotic applications often involve physical interactions between the robot’s end-effector and...
A robust tracking controller for rigid-link electrically driven (RLED) robot manipulators operating ...
This paper introduces a robust corrective tracking controller for rigid-link dectrically-driven (RLE...
This paper presents the first input-output robust control design for the trajectory following proble...
Trajectory tracking control for a tendon driven series elastically actuated robotic arm is considere...
International audienceThis article develops a systematic framework for dynamic tracking control of s...
The control of articulated soft robots, i.e. robots with flexible joints and rigid links, presents a...
This paper tackles the problem of controlling articulated soft robots (ASRs), i.e., robots with eith...
Currently, the access to the knowledge of stiffness values is typically constrained to a-priori iden...
With the expansion of collaborative robots, the necessity to ensure safe interaction between humans ...
A position and force control concept for an industrial robot with elasticity in joints and links is ...
This article addresses the problem of simultaneous and robust closed-loop control of joint stiffness...
Articulated soft robots (ASRs) increasingly gain importance due to their remarkable advantages such...
An approach is presented to the control of an uncertain nonlinear flexible robot arm (PUMA-type) wit...
This letter addresses the stiffness estimation problem for flexible robot joints, driven by variable...
Modern robotic applications often involve physical interactions between the robot’s end-effector and...
A robust tracking controller for rigid-link electrically driven (RLED) robot manipulators operating ...
This paper introduces a robust corrective tracking controller for rigid-link dectrically-driven (RLE...
This paper presents the first input-output robust control design for the trajectory following proble...
Trajectory tracking control for a tendon driven series elastically actuated robotic arm is considere...
International audienceThis article develops a systematic framework for dynamic tracking control of s...