Throwing is a complex and highly dynamic task. Humans usually exploit passive dynamics of their limbs to optimize their movement and muscle activation. In order to approach human throwing, we developed a double pendulum robotic platform. To introduce passivity into the actuated joints, clutches were included in the drive train. In this paper, we demonstrate the advantage of exploiting passive dynamics in reducing the mechanical work. However, engaging and disengaging the clutches are done in discrete fashions. Therefore, we propose an optimization approach which can deal with such discontinuities. It is shown that properly engaging/disengaging the clutches can reduce the mechanical work of a throwing task. The result is compared to the solu...
© 2020 IEEE. Human dexterity far exceeds that of modern robots, despite a much slower neuromuscular ...
International audienceWith the rapid evolution of robotic technology, robots are expected to perform...
Passive properties of the human hands, defined by the joint stiffness and damping, play an important...
This thesis considers the control of clutches on the Double Pendulum Robot which allows the introduc...
Abstract—This paper explores a passive control strategy with variable stiffness actuation for swing ...
There has been an increasing interest in the use of mechanical dynamics, (e.g., assive, Elastic, And...
For manipulation tasks in uncertain environments, intentionally designed series impedance in mechani...
MasterRecently, intrinsic compliant actuation is not considered the clear drawback in robotics, wher...
A methodology for designing a parallel, passive-assist de-vice to augment an active system using ene...
This paper presents a method for optimizing the throwing distance of a two-wheeled, self-balancing, ...
The control of aerial gymnastic maneuvers is challenging because these maneuvers frequently involve ...
In this thesis it has been studied the effect of concentrated elasticity in the cobot wrist for thro...
Elastic joints endow robots with advantages including energy-efficiency, safety and performance. To...
Motion control of flexible arms is more difficult than that of rigid arms, however utilizing its dyn...
The structure of the human musculo-skeletal systems shows complex passive dynamic properties, critic...
© 2020 IEEE. Human dexterity far exceeds that of modern robots, despite a much slower neuromuscular ...
International audienceWith the rapid evolution of robotic technology, robots are expected to perform...
Passive properties of the human hands, defined by the joint stiffness and damping, play an important...
This thesis considers the control of clutches on the Double Pendulum Robot which allows the introduc...
Abstract—This paper explores a passive control strategy with variable stiffness actuation for swing ...
There has been an increasing interest in the use of mechanical dynamics, (e.g., assive, Elastic, And...
For manipulation tasks in uncertain environments, intentionally designed series impedance in mechani...
MasterRecently, intrinsic compliant actuation is not considered the clear drawback in robotics, wher...
A methodology for designing a parallel, passive-assist de-vice to augment an active system using ene...
This paper presents a method for optimizing the throwing distance of a two-wheeled, self-balancing, ...
The control of aerial gymnastic maneuvers is challenging because these maneuvers frequently involve ...
In this thesis it has been studied the effect of concentrated elasticity in the cobot wrist for thro...
Elastic joints endow robots with advantages including energy-efficiency, safety and performance. To...
Motion control of flexible arms is more difficult than that of rigid arms, however utilizing its dyn...
The structure of the human musculo-skeletal systems shows complex passive dynamic properties, critic...
© 2020 IEEE. Human dexterity far exceeds that of modern robots, despite a much slower neuromuscular ...
International audienceWith the rapid evolution of robotic technology, robots are expected to perform...
Passive properties of the human hands, defined by the joint stiffness and damping, play an important...