This paper presents novel two- and three-dof closed-chain orientational manipulators, whose end-effector is actuated in a decoupled and homokinetic way by frame-located motors via holonomic transmissions based on constant-velocity couplings. The functioning of these couplings is investigated and the conditions applying for homokinetic transmission to be preserved during simultaneous motor drive are revealed and implemented. As a result, decoupled and configuration-independent relations between the motor rates and the time-derivatives of the variables describing the end-effector orientation are achieved. The attainment of analogous relations between the motor speeds and the components of the end-effector angular velocity is conversely proven...
We study the differential kinematics and the kineto-static manipulability indices of multiple cooper...
This paper presents a unified geometric framework to input-output linearization of open-chain multi-...
This paper investigates the effects produced by two common techniques of force and static balancing ...
This paper presents novel two- and three-dof closed-chain orientational manipulators, whose end-effe...
The invention concerns a mechanism having the necessary conditions in order that the rotational moti...
This paper investigates how the motion of a rotating body can be actuated by frame-located motors vi...
International audienceThe subject of this paper is a special class of closed-chain manipulators. Fir...
This paper presents a novel family of fully isotropic parallel mechanisms whose output link is provi...
Two parallel mechanisms, a 1T2R (one translational motion and 2-DOF rotational motions) and a 1T3R (...
Transmission of the motion between two shafts can be obtained by a Double Cardan Joint (DCJ), which,...
The paper discusses the concepts of isotropy and decoupling in n-DoF (degrees of freedom) manipulato...
In this paper, we study the differential kinematics and the kineto-static manipulability indices of ...
A two degree-of-freedom (DoF) homokinetic joint provides the freedom of spatially pointing direction...
We study the differential kinematics and the kineto-static manipulability indices of multiple cooper...
This paper presents a unified geometric framework to input-output linearization of open-chain multi-...
This paper investigates the effects produced by two common techniques of force and static balancing ...
This paper presents novel two- and three-dof closed-chain orientational manipulators, whose end-effe...
The invention concerns a mechanism having the necessary conditions in order that the rotational moti...
This paper investigates how the motion of a rotating body can be actuated by frame-located motors vi...
International audienceThe subject of this paper is a special class of closed-chain manipulators. Fir...
This paper presents a novel family of fully isotropic parallel mechanisms whose output link is provi...
Two parallel mechanisms, a 1T2R (one translational motion and 2-DOF rotational motions) and a 1T3R (...
Transmission of the motion between two shafts can be obtained by a Double Cardan Joint (DCJ), which,...
The paper discusses the concepts of isotropy and decoupling in n-DoF (degrees of freedom) manipulato...
In this paper, we study the differential kinematics and the kineto-static manipulability indices of ...
A two degree-of-freedom (DoF) homokinetic joint provides the freedom of spatially pointing direction...
We study the differential kinematics and the kineto-static manipulability indices of multiple cooper...
This paper presents a unified geometric framework to input-output linearization of open-chain multi-...
This paper investigates the effects produced by two common techniques of force and static balancing ...