Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensions of all cables remain within acceptable limits, for a given wrench applied to the platform. The cables cannot go slack -to keep the control of the robot- nor excessively tight -to prevent cable breakage- even in the presence of bounded perturbations of the wrench. This paper proposes a path planning method that accommodates such constraints simultaneously. Given two configurations of the robot, the method attempts to connect them through a path that, at any point, allows the cables to counteract any wrench lying in a predefined uncertainty region. The feasible C-space is placed in correspondence with a smooth manifold, which facilitates th...
International audienceThis paper deals with cable-driven mobile platforms that are equipped with a s...
The intrinsic interaction of a robotic system that includes two 6-DOF cable-driven platforms sharing...
My thesis addresses the problem of manipulation using multiple robots with cables. I study how robot...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Extensively studied since the early nineties, cable-driven robots have attracted the growing interes...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
International audienceThis paper deals with the wrench-feasible workspace (WFW) of n-degree-of-freed...
We present two path planning algorithms for mobile robots that are connected by cable to a fixed ba...
The production line engineer's task of designing the external path for cables feeding electricity, a...
Abstract We present two path planning algorithms for mobile robots that are con-nected by cable to a...
International audienceThis paper deals with continuous tension validation for Cable-Driven Parallel ...
Most cable-driven parallel robots are kinematically over-constrained mechanisms. This results in a n...
International audienceThis paper deals with cable-driven mobile platforms that are equipped with a s...
The intrinsic interaction of a robotic system that includes two 6-DOF cable-driven platforms sharing...
My thesis addresses the problem of manipulation using multiple robots with cables. I study how robot...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Motion paths of cable-driven hexapods must carefully be planned to ensure that the lengths and tensi...
Extensively studied since the early nineties, cable-driven robots have attracted the growing interes...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
International audienceThis paper deals with the wrench-feasible workspace (WFW) of n-degree-of-freed...
We present two path planning algorithms for mobile robots that are connected by cable to a fixed ba...
The production line engineer's task of designing the external path for cables feeding electricity, a...
Abstract We present two path planning algorithms for mobile robots that are con-nected by cable to a...
International audienceThis paper deals with continuous tension validation for Cable-Driven Parallel ...
Most cable-driven parallel robots are kinematically over-constrained mechanisms. This results in a n...
International audienceThis paper deals with cable-driven mobile platforms that are equipped with a s...
The intrinsic interaction of a robotic system that includes two 6-DOF cable-driven platforms sharing...
My thesis addresses the problem of manipulation using multiple robots with cables. I study how robot...