In the past, several motion and force controls were successfully implemented on rigid-joint robots with constraints. With the invention of mechanically compliant robots, the focus on designing controllers for elastic joint robots with constraints is increasing, especially involving the complexity of the joint elasticity in control. Aiming to bridge the gap between the control schemes of rigid- and elastic-joint robots, this letter presents a controller consisting of a PD+ task-space tracking and integral force control, while the intrinsic inertial and elastic properties of the system are fully preserved. We provide a passivity analysis and prove uniform asymptotic stability of the equilibrium. Simulations on a planar two-armed benchmark sys...
Based on recent advances in contraction methods in systems and control, in this paper we present the...
A passivity and Lyapunov based approach for the control design for the trajectory tracking problem o...
A huge part of (industrial-) robots is still modeled and designed as rigid and stiff multibody syst...
This work addresses the problem of global set-point control of elastic joint robots by combining ela...
Lightweight robots are known to be intrinsically elastic in their joints. The established classical ...
In this paper, a passivity-based controller with the link side on-line gravity compensation for elas...
In this paper, we present a novel global tracking control approach for elastic-joint robots that can...
grantor: University of TorontoThis thesis focuses on the development of new motion and fo...
Since safe human-robot interaction is naturally linked to compliance in these robots, this requirem...
The quest for animal-like performance in robots has driven the integration of elastic elements in th...
In this paper a new approach employing smooth robust compensators is proposed for the control of unc...
The main goal is to develop a general theory for the control of flexible robots, including flexible ...
Physical compliance can be considered one of the key technical properties a robot should exhibit to ...
In this work, we propose a saturated passivity-based controller that addresses the problem of set-po...
Elastic joints endow robots with advantages including energy-efficiency, safety and performance. To...
Based on recent advances in contraction methods in systems and control, in this paper we present the...
A passivity and Lyapunov based approach for the control design for the trajectory tracking problem o...
A huge part of (industrial-) robots is still modeled and designed as rigid and stiff multibody syst...
This work addresses the problem of global set-point control of elastic joint robots by combining ela...
Lightweight robots are known to be intrinsically elastic in their joints. The established classical ...
In this paper, a passivity-based controller with the link side on-line gravity compensation for elas...
In this paper, we present a novel global tracking control approach for elastic-joint robots that can...
grantor: University of TorontoThis thesis focuses on the development of new motion and fo...
Since safe human-robot interaction is naturally linked to compliance in these robots, this requirem...
The quest for animal-like performance in robots has driven the integration of elastic elements in th...
In this paper a new approach employing smooth robust compensators is proposed for the control of unc...
The main goal is to develop a general theory for the control of flexible robots, including flexible ...
Physical compliance can be considered one of the key technical properties a robot should exhibit to ...
In this work, we propose a saturated passivity-based controller that addresses the problem of set-po...
Elastic joints endow robots with advantages including energy-efficiency, safety and performance. To...
Based on recent advances in contraction methods in systems and control, in this paper we present the...
A passivity and Lyapunov based approach for the control design for the trajectory tracking problem o...
A huge part of (industrial-) robots is still modeled and designed as rigid and stiff multibody syst...