none3Physical human-robot interaction requires the development of safe and dependable robots. This involves the mechanical design of lightweight and compliant manipulators and the definition of motion control laws that allow to combine compliant behavior in reaction to possible collisions, while preserving accuracy and performance of rigid robots in free space. In this framework, great attention has been given to robots manipulators with relevant elasticity at the joints/transmissions. While the modeling and control of robots with elastic joints of finite but constant stiffness is a well- established topic, few results are available for the case of robot structures with variable joint stiffness -mostly limited to the 1-dof case. We present ...
ISBN: 978-1-84821-520-7International audienceThis chapter presents the modeling, identification and ...
Feedback linearization is a viable nonlinear control technique for solving trajectory tracking probl...
The concept of variable stiffness actuation (VSA) for robotic joints promises advantages regarding ...
Physical human-robot interaction requires the development of safe and dependable robots. This involv...
Abstract — Physical human-robot interaction requires the development of safe and dependable robots. ...
The development of safe and dependable robots for physical human-robot interaction requires both the...
Abstract — The development of safe and dependable robots for physical human-robot interaction requir...
We consider some theoretical aspects of the control problem for rigid link robots having some joints...
Robots that are not only robust, dynamic, and gentle in the human robot interaction, but are also ab...
Mechanical flexibility in robot manipulators is due to compliance at the joints and/or distributed d...
The development of safe and dependable robots for physical human-robot interaction is actually chang...
Qualitative data suggests most industrial manipulators are inherently flexible. Flexibilities in the...
The output-based control of a redundant robotic manipulator with relevant and adjustable joint stiff...
We consider the problem of perfect cancellation of gravity effects in the dynamics of robot manipula...
In this paper, the dynamic model of a robot with antagonistic actuated joints is presented, and the ...
ISBN: 978-1-84821-520-7International audienceThis chapter presents the modeling, identification and ...
Feedback linearization is a viable nonlinear control technique for solving trajectory tracking probl...
The concept of variable stiffness actuation (VSA) for robotic joints promises advantages regarding ...
Physical human-robot interaction requires the development of safe and dependable robots. This involv...
Abstract — Physical human-robot interaction requires the development of safe and dependable robots. ...
The development of safe and dependable robots for physical human-robot interaction requires both the...
Abstract — The development of safe and dependable robots for physical human-robot interaction requir...
We consider some theoretical aspects of the control problem for rigid link robots having some joints...
Robots that are not only robust, dynamic, and gentle in the human robot interaction, but are also ab...
Mechanical flexibility in robot manipulators is due to compliance at the joints and/or distributed d...
The development of safe and dependable robots for physical human-robot interaction is actually chang...
Qualitative data suggests most industrial manipulators are inherently flexible. Flexibilities in the...
The output-based control of a redundant robotic manipulator with relevant and adjustable joint stiff...
We consider the problem of perfect cancellation of gravity effects in the dynamics of robot manipula...
In this paper, the dynamic model of a robot with antagonistic actuated joints is presented, and the ...
ISBN: 978-1-84821-520-7International audienceThis chapter presents the modeling, identification and ...
Feedback linearization is a viable nonlinear control technique for solving trajectory tracking probl...
The concept of variable stiffness actuation (VSA) for robotic joints promises advantages regarding ...