Physical compliance can be considered one of the key technical properties a robot should exhibit to increase its mechanical robustness. In addition, the accompanying temporal energy storing capabilities enable explosive and energy efficient cyclic motions. But these advantages come at a price, as compliance introduces unwanted intrinsic oscillatory dynamics, underactuation, and reduces the natural frequency of the plant. These aspects make control of the link configuration variables a challenging task. This work presents two novel control methods for implementing link-side motion tracking capabilities and injecting a desired damping characteristic to suppress link vibrations along the reference trajectory for compliantly actuated robots wi...
The quest for animal-like performance in robots has driven the integration of elastic elements in th...
In biology, body dynamics and elasticity in periodic motions most likely con- tribute to efficiency...
A position and force control concept for an industrial robot with elasticity in joints and links is ...
Physical compliance can be considered one of the key technical properties a robot should exhibit to ...
The regulation of the link positions of compliant robots, damping out undesired link oscillations wh...
We present a new approach for Cartesian impedance control of compliantly actuated robots with possib...
We propose an impedance controller for articulated soft robots implemented by bidirectional antagoni...
Studies on motion control of robot manipulators with elastic joints are basically aimed at improving...
The vast majority of robots in industrial environments is designed and modeled as stiff multibody sy...
Energy efficient, lightweight robot arms for space applications have considerable structural flexibi...
This work addresses the problem of global set-point control of elastic joint robots by combining ela...
In this paper we consider the control of robots that feature visco-elastic actuators with adjustable...
Traditionally, most of the nonlinear control techniques for elastic robotic systems focused on achie...
This paper introduces a novel control approach for motion tracking and damping assignment in complia...
Articulated soft robots (ASRs) increasingly gain importance due to their remarkable advantages such...
The quest for animal-like performance in robots has driven the integration of elastic elements in th...
In biology, body dynamics and elasticity in periodic motions most likely con- tribute to efficiency...
A position and force control concept for an industrial robot with elasticity in joints and links is ...
Physical compliance can be considered one of the key technical properties a robot should exhibit to ...
The regulation of the link positions of compliant robots, damping out undesired link oscillations wh...
We present a new approach for Cartesian impedance control of compliantly actuated robots with possib...
We propose an impedance controller for articulated soft robots implemented by bidirectional antagoni...
Studies on motion control of robot manipulators with elastic joints are basically aimed at improving...
The vast majority of robots in industrial environments is designed and modeled as stiff multibody sy...
Energy efficient, lightweight robot arms for space applications have considerable structural flexibi...
This work addresses the problem of global set-point control of elastic joint robots by combining ela...
In this paper we consider the control of robots that feature visco-elastic actuators with adjustable...
Traditionally, most of the nonlinear control techniques for elastic robotic systems focused on achie...
This paper introduces a novel control approach for motion tracking and damping assignment in complia...
Articulated soft robots (ASRs) increasingly gain importance due to their remarkable advantages such...
The quest for animal-like performance in robots has driven the integration of elastic elements in th...
In biology, body dynamics and elasticity in periodic motions most likely con- tribute to efficiency...
A position and force control concept for an industrial robot with elasticity in joints and links is ...