Add to ORKGInduction Of Net Effective Torque) is introduced as a novel means to deliver torque to a joint. Its advantages include remote actuation, independent control of compliance and equilibrium, and in future versions, the ability to span multiple joints. This cable-driven, compliant mechanism should prove very useful in a variety of human-robot interactions. Here we present a single joint device evaluated in terms of its position and torque step responses, its ability to follow a minimum jerk trajectory, and its ability to create torque fields. Results show that this device behaves as planned with several important limitations. We conclude with potential applications of this type of mechanism. I
Over the past decades industrial robot manipulators have expanded throughout the automation landscap...
Exoskeletons targeting the upper limb have been broadly developed both for rehabilitation and to aug...
International audienceAbstract This paper is devoted to the control and identification of a manipula...
ecently, there has been an exciting array of new robotic devices especially designed for human-machi...
Within the context of impedance controlled exoskeletons, common actuators have important drawbacks. ...
Common actuators have important drawbacks for use in an exoskeleton type of rehabilitation (training...
Common actuators have important drawbacks for use in an exoskeleton type of rehabilitation (training...
International audienceAbstract This paper discusses stiffness and antagonistic actuation in light-we...
Robotic manipulators with joints that are capable of precisely monitoring the instantaneous torque a...
This paper presents the Double Actuator Joint Mechanism, a novel mechanism for robots to generate hu...
Redundancy in cable-driven parallel robots provides additional degrees of freedom that can be used t...
This paper addresses stiffness modulation and antagonistic actuation in lightweight tendon-driven bi...
Redundancy in cable-driven parallel robots provides additional degrees of freedom that can be used t...
Within the context of impedance controlled exoskeletons, common actuators have important drawbacks. ...
In this paper, an asymmetric cable-driven mechanism is proposed for accurate force control of exoske...
Over the past decades industrial robot manipulators have expanded throughout the automation landscap...
Exoskeletons targeting the upper limb have been broadly developed both for rehabilitation and to aug...
International audienceAbstract This paper is devoted to the control and identification of a manipula...
ecently, there has been an exciting array of new robotic devices especially designed for human-machi...
Within the context of impedance controlled exoskeletons, common actuators have important drawbacks. ...
Common actuators have important drawbacks for use in an exoskeleton type of rehabilitation (training...
Common actuators have important drawbacks for use in an exoskeleton type of rehabilitation (training...
International audienceAbstract This paper discusses stiffness and antagonistic actuation in light-we...
Robotic manipulators with joints that are capable of precisely monitoring the instantaneous torque a...
This paper presents the Double Actuator Joint Mechanism, a novel mechanism for robots to generate hu...
Redundancy in cable-driven parallel robots provides additional degrees of freedom that can be used t...
This paper addresses stiffness modulation and antagonistic actuation in lightweight tendon-driven bi...
Redundancy in cable-driven parallel robots provides additional degrees of freedom that can be used t...
Within the context of impedance controlled exoskeletons, common actuators have important drawbacks. ...
In this paper, an asymmetric cable-driven mechanism is proposed for accurate force control of exoske...
Over the past decades industrial robot manipulators have expanded throughout the automation landscap...
Exoskeletons targeting the upper limb have been broadly developed both for rehabilitation and to aug...
International audienceAbstract This paper is devoted to the control and identification of a manipula...