International audienceAbstract This paper is devoted to the control and identification of a manipulator with three anti-parallelogram joints in series, referred to as X-joints. Each X-joint is a tensegrity one-degree-of-freedom mechanism antagonistically actuated with cables and springs in parallel. As compared to manipulators built with simple revolute joints in series, manipulators with tensegrity X-joint offer a number of advantages, such as an intrinsic stability, variable stiffness, and lower inertia. This design was inspired by the musculosleketon architecture of the bird’s neck, which is known to be very dextrous. A test-bed prototype is presented and used to test computed torque control laws. Friction and cable elasticity are modele...
International audienceIn this paper, we consider cable-based motor-to-joint transmissions which are ...
Antagonistic mechanisms attract attentions as joint actuators of linkage mechanisms, which control o...
A humanoid neck design with low motion noise yields a cable-driven parallel manipulator to imitate t...
International audienceAbstract This paper is devoted to the control and identification of a manipula...
International audienceAbstract This paper discusses stiffness and antagonistic actuation in light-we...
International audienceThis paper analyzes the instantaneous kinematic and static performance of a tw...
International audienceIn biological systems, the joints are actuated antagonistically by muscles tha...
Biological systems are a great source of inspiration for roboticists. Tensegrity systems, composed o...
The paper analyzes a planar three degrees of freedom manipulator with cable actuation. Such a system...
International audienceA planar tensegrity manipulator made of two X-mechanisms in series is studied ...
Cable Suspended Parallel Manipulators represent an emerging field of study due to the complexities p...
Compared with traditional rigid link manipulators, cable-driven continuum manipulators have many adv...
Variable-stiffness manipulators can produce intrinsically-safe motions, which are essential for next...
Les systemes biologiques representent une grande source d’inspiration pour les roboticiens. Les syst...
The robotics, particularly the humanoid research field, needs new mechanisms to meet the criteria en...
International audienceIn this paper, we consider cable-based motor-to-joint transmissions which are ...
Antagonistic mechanisms attract attentions as joint actuators of linkage mechanisms, which control o...
A humanoid neck design with low motion noise yields a cable-driven parallel manipulator to imitate t...
International audienceAbstract This paper is devoted to the control and identification of a manipula...
International audienceAbstract This paper discusses stiffness and antagonistic actuation in light-we...
International audienceThis paper analyzes the instantaneous kinematic and static performance of a tw...
International audienceIn biological systems, the joints are actuated antagonistically by muscles tha...
Biological systems are a great source of inspiration for roboticists. Tensegrity systems, composed o...
The paper analyzes a planar three degrees of freedom manipulator with cable actuation. Such a system...
International audienceA planar tensegrity manipulator made of two X-mechanisms in series is studied ...
Cable Suspended Parallel Manipulators represent an emerging field of study due to the complexities p...
Compared with traditional rigid link manipulators, cable-driven continuum manipulators have many adv...
Variable-stiffness manipulators can produce intrinsically-safe motions, which are essential for next...
Les systemes biologiques representent une grande source d’inspiration pour les roboticiens. Les syst...
The robotics, particularly the humanoid research field, needs new mechanisms to meet the criteria en...
International audienceIn this paper, we consider cable-based motor-to-joint transmissions which are ...
Antagonistic mechanisms attract attentions as joint actuators of linkage mechanisms, which control o...
A humanoid neck design with low motion noise yields a cable-driven parallel manipulator to imitate t...